Academic literature on the topic 'Cell receptors – Physiological effect'
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Journal articles on the topic "Cell receptors – Physiological effect"
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Mallucci, Livio, and Valerie Wells. "Negative Control of Cell Proliferation. Growth Arrest versus Apoptosis. Role of βGBP." Journal of Theoretical Medicine 1, no. 3 (1998): 169–73. http://dx.doi.org/10.1080/10273669808833017.
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βGBP is a novel physiological negative growth regulator of the cell and a cytostatic factor.It is secreted by cells, and bybinding with high affinity to specific cell surface receptors. In normal cell surface receptors. In normal cells, βGBP physiologically controls transition from G0to G1and passage from late S phase to G2by modulating signalling cascades activated by tyrosine Kinase receptors and by affecting transcription events.As a cytostatic Factor βGBP has a marked growth inhibitory effect on a variety of tumours including leukaemias where growth arrest is followed by the activation of apoptotic pathways and cell death.
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Backer, J. M., S. E. Shoelson, E. Haring, and M. F. White. "Insulin receptors internalize by a rapid, saturable pathway requiring receptor autophosphorylation and an intact juxtamembrane region." Journal of Cell Biology 115, no. 6 (December 15, 1991): 1535–45. http://dx.doi.org/10.1083/jcb.115.6.1535.
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The effect of receptor occupancy on insulin receptor endocytosis was examined in CHO cells expressing normal human insulin receptors (CHO/IR), autophosphorylation- and internalization-deficient receptors (CHO/IRA1018), and receptors which undergo autophosphorylation but lack a sequence required for internalization (CHO/IR delta 960). The rate of [125I]insulin internalization in CHO/IR cells at 37 degrees C was rapid at physiological concentrations, but decreased markedly in the presence of increasing unlabeled insulin (ED50 = 1-3 nM insulin, or 75,000 occupied receptors/cell). In contrast, [125I]insulin internalization by CHO/IRA1018 and CHO/IR delta 960 cells was slow and was not inhibited by unlabeled insulin. At saturating insulin concentrations, the rate of internalization by wild-type and mutant receptors was similar. Moreover, depletion of intracellular potassium, which has been shown to disrupt coated pit formation, inhibited the rapid internalization of [125I]insulin at physiological insulin concentrations by CHO/IR cells, but had little or no effect on [125I]insulin uptake by CHO/IR delta 960 and CHO/IRA1018 cells or wild-type cells at high insulin concentrations. These data suggest that the insulin-stimulated entry of the insulin receptor into a rapid, coated pit-mediated internalization pathway is saturable and requires receptor autophosphorylation and an intact juxtamembrane region. Furthermore, CHO cells also contain a constitutive nonsaturable pathway which does not require receptor autophosphorylation or an intact juxtamembrane region; this second pathway is unaffected by depletion of intracellular potassium, and therefore may be independent of coated pits. Our data suggest that the ligand-stimulated internalization of the insulin receptor may require specific saturable interactions between the receptor and components of the endocytic system.
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Morris, Andrew J., and Craig C. Malbon. "Physiological Regulation of G Protein-Linked Signaling." Physiological Reviews 79, no. 4 (January 10, 1999): 1373–430. http://dx.doi.org/10.1152/physrev.1999.79.4.1373.
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Heterotrimeric G proteins in vertebrates constitute a family molecular switches that transduce the activation of a populous group of cell-surface receptors to a group of diverse effector units. The receptors include the photopigments such as rhodopsin and prominent families such as the adrenergic, muscarinic acetylcholine, and chemokine receptors involved in regulating a broad spectrum of responses in humans. Signals from receptors are sensed by heterotrimeric G proteins and transduced to effectors such as adenylyl cyclases, phospholipases, and various ion channels. Physiological regulation of G protein-linked receptors allows for integration of signals that directly or indirectly effect the signaling from receptor→G protein→effector(s). Steroid hormones can regulate signaling via transcriptional control of the activities of the genes encoding members of G protein-linked pathways. Posttranscriptional mechanisms are under physiological control, altering the stability of preexisting mRNA and affording an additional level for regulation. Protein phosphorylation, protein prenylation, and proteolysis constitute major posttranslational mechanisms employed in the physiological regulation of G protein-linked signaling. Drawing upon mechanisms at all three levels, physiological regulation permits integration of demands placed on G protein-linked signaling.
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Meikle, A., C. Tasende, C. Sosa, and E. G. Garófalo. "The role of sex steroid receptors in sheep female reproductive physiology." Reproduction, Fertility and Development 16, no. 4 (2004): 385. http://dx.doi.org/10.1071/rd04036.
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Cell responsiveness to steroid hormones is related to the number and affinity of its receptors, thus factors affecting steroid expression will influence tissue sensitivity and functionality. The present review discusses the role of oestrogen and progesterone receptors in sheep female reproductive physiology. The mechanism of steroid hormone action in the target cell is introduced first; the tissue distribution, physiological functions and regulation of oestrogen receptor subtypes and progesterone receptor isoforms in ruminants are reported. The role of steroid receptors in target tissues (with emphasis on the uterus and pituitary gland) during different physiological events is addressed in an attempt to clarify oestrogen and progesterone actions in different developmental and reproductive stages: prepubertal period, oestrous cycle, pregnancy, post-partum period and seasonal anoestrus. The present review shows how the distinct reproductive stages are accompanied by dramatic changes in uterine receptor expression. The role of oestrogen and progesterone receptors in the molecular mechanism responsible for premature luteolysis that results in subnormal luteal function is discussed. Finally, the effect of nutrition on sex steroid receptor expression and the involvement on reproductive performance is reported.
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Inscho, Edward W. "P2 receptors in regulation of renal microvascular function." American Journal of Physiology-Renal Physiology 280, no. 6 (June 1, 2001): F927—F944. http://dx.doi.org/10.1152/ajprenal.2001.280.6.f927.
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In the last 10–15 years, interest in the physiological role of P2 receptors has grown rapidly. Cellular, tissue, and organ responses to P2 receptor activation have been described in numerous in vivo and in vitro models. The purpose of this review is to provide an update of the recent advances made in determining the involvement of P2 receptors in the control of renal hemodynamics and the renal microcirculation. Special attention will be paid to work published in the last 5–6 years directed at understanding the role of P2 receptors in the physiological control of renal microvascular function. Several investigators have begun to evaluate the effects of P2 receptor activation on renal microvascular function across several species. In vivo and in vitro evidence consistently supports the hypothesis that P2 receptor activation by locally released extracellular nucleotides influences microvascular function. Extracellular nucleotides selectively influence preglomerular resistance without having an effect on postglomerular tone. P2 receptor inactivation blocks autoregulatory behavior whereas responsiveness to other vasoconstrictor agonists is retained. P2 receptor stimulation activates multiple intracellular signal transduction pathways in preglomerular smooth muscle cells and mesangial cells. Renal microvascular cells and mesangial cells express multiple subtypes of P2 receptors; however, the specific role each plays in regulating vascular and mesangial cell function remains unclear. Accordingly, the results of studies performed to date provide strong support for the hypothesis that P2 receptors are important contributors to the physiological regulation of renal microvascular and/or glomerular function.
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Faull, R. J., N. L. Kovach, J. M. Harlan, and M. H. Ginsberg. "Stimulation of integrin-mediated adhesion of T lymphocytes and monocytes: two mechanisms with divergent biological consequences." Journal of Experimental Medicine 179, no. 4 (April 1, 1994): 1307–16. http://dx.doi.org/10.1084/jem.179.4.1307.
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We show that the adhesion of T lymphoid cells to immobilized fibronectin can be increased by two distinct mechanisms. The first is by increasing the affinity of the fibronectin receptor/ligand interaction using the anti-beta 1 integrin monoclonal antibody 8A2. The second is by treating the cells with phorbol 12-myristate 13-acetate (PMA), which alters events that occur after receptor occupancy (e.g., cell spreading) without affecting receptor affinity. The effects of these two mechanisms on adhesion in the presence of physiological concentrations of soluble fibronectin suggest that they have different biological consequences. Under these conditions, the net effect of increasing the affinity of the fibronectin receptors is to decrease cell adhesion, whereas the increase in adhesion induced by PMA is unaffected. This suggests that the high affinity receptors are not primarily available for cell adhesion under these circumstances, and that they have an alternative function. We further show that high affinity binding of soluble fibronectin can be induced by either differentiation of the monocytic cell line THP-1 or by cross-linking the T cell receptor complexes on the T lymphoid cell line HUT-78. The differentiated monocytic cells express two populations of fibronectin receptors: a minority in a high affinity state, and the majority in a low affinity state. Thus they will both continue to adhere in the presence of physiological concentrations of soluble fibronectin and bind significant amounts of soluble fibronectin at the cell surface.
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Rickard, Amanda J., and Morag J. Young. "Corticosteroid receptors, macrophages and cardiovascular disease." Journal of Molecular Endocrinology 42, no. 6 (January 21, 2009): 449–59. http://dx.doi.org/10.1677/jme-08-0144.
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The mineralocorticoid receptor (MR) and glucocorticoid receptor are ligand-activated transcription factors that have important physiological and pathophysiological actions in a broad range of cell types including monocytes and macrophages. While the glucocorticoids cortisol and corticosterone have well-described anti-inflammatory actions on both recruited and tissue resident macrophages, a role for the mineralocorticoid aldosterone in these cells is largely undefined. Emerging evidence, however, suggests that MR signalling may promote pro-inflammatory effects. This review will discuss the current understanding of the role of corticosteroid receptors in macrophages and their effect on diseases involving inflammation, with a particular focus on cardiovascular disease.
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Rozenfeld, Raphael, and Lakshmi A. Devi. "Exploring a role for heteromerization in GPCR signalling specificity." Biochemical Journal 433, no. 1 (December 15, 2010): 11–18. http://dx.doi.org/10.1042/bj20100458.
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The critical involvement of GPCRs (G-protein-coupled receptors) in nearly all physiological processes, and the presence of these receptors at the interface between the extracellular and the intracellular milieu, has positioned these receptors as pivotal therapeutic targets. Although a large number of drugs targeting GPCRs are currently available, significant efforts have been directed towards understanding receptor properties, with the goal of identifying and designing improved receptor ligands. Recent advances in GPCR pharmacology have demonstrated that different ligands binding to the same receptor can activate discrete sets of downstream effectors, a phenomenon known as ‘ligand-directed signal specificity’, which is currently being explored for drug development due to its potential therapeutic advantage. Emerging studies suggest that GPCR responses can also be modulated by contextual factors, such as interactions with other GPCRs. Association between different GPCR types leads to the formation of complexes, or GPCR heteromers, with distinct and unique signalling properties. Some of these heteromers activate discrete sets of signalling effectors upon activation by the same ligand, a phenomenon termed ‘heteromer-directed signalling specificity’. This has been shown to be involved in the physiological role of receptors and, in some cases, in disease-specific dysregulation of a receptor effect. Hence targeting GPCR heteromers constitutes an emerging strategy to select receptor-specific responses and is likely to be useful in achieving specific beneficial therapeutic effects.
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Yang, Guang, Wen-Hao Dong, Chang-Long Hu, and Yan-Ai Mei. "PGE2 Modulates GABAA Receptors via an EP1 Receptor-Mediated Signaling Pathway." Cellular Physiology and Biochemistry 36, no. 5 (2015): 1699–711. http://dx.doi.org/10.1159/000430143.
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Aims: PGE2 is one of the most abundant prostanoids in mammalian tissues, but its effect on neuronal receptors has not been well investigated. This study examines the effect of PGE2 on GABAA receptor currents in rat cerebellar granule neurons. Methods: GABAA currents were recorded using a patch-clamp technique. Cell surface and total protein of GABAA β1/2/3 subunits was carried out by Western blot analysis. Results: Upon incubation of neurons with PGE2 (1 µM) for 60 minutes, GABAA currents were significantly potentiated. This PGE2-driven effect could be blocked by PKC or CaMKII inhibitors as well as EP1 receptor antagonist, and mimicked by PMA or EP1 receptor agonist. Furthermore, Western blot data showed that PGE2 did not increase the total expression level of GABAA receptors, but significantly increased surface levels of GABAA β1/2/3 subunits after 1 h of treatment. Consistently, both PKC and CaMKII inhibitors were able to reduce PGE2-induced increases in cell surface expression of GABAA receptors. Conclusion: Activation of either the PKC or CaMKII pathways by EP1 receptors mediates the PGE2-induced increase in GABAA currents. This suggests that upregulation of postsynaptic GABAA receptors by PGE2 may have profound effects on cerebellar functioning under physiological and pathological conditions.
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Davis, S. F., and C. L. Linn. "Activation of NMDA receptors linked to modulation of voltage-gated ion channels and functional implications." American Journal of Physiology-Cell Physiology 284, no. 3 (March 1, 2003): C757—C768. http://dx.doi.org/10.1152/ajpcell.00252.2002.
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Catfish ( Ictalurus punctatus) cone horizontal cells contain N-methyl-d-aspartate (NMDA) receptors, the function of which has yet to be determined. In the present study, we have examined the effect of NMDA receptor activation on voltage-gated ion channel activity. NMDA receptor activation produced a long-term downregulation of voltage-gated sodium and calcium currents but had no effect on the delayed rectifying potassium current. NMDA's effect was eliminated in the presence of AP-7. To determine whether NMDA receptor activation had functional implications, isolated catfish cone horizontal cells were current clamped to mimic the cell's physiological response. When horizontal cells were depolarized, they elicited a single depolarizing overshoot and maintained a depolarized steady state membrane potential. NMDA reduced the amplitude of the depolarizing overshoot and increased the depolarized steady-state membrane potential. Both effects of NMDA were eliminated in the presence of AP-7. These results support the hypothesis that activation of NMDA receptors in catfish horizontal cells may affect the type of visual information conveyed through the distal retina.
Dissertations / Theses on the topic "Cell receptors – Physiological effect"
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Siwik, Steven Anthony 1963. "Regulation of receptor-mediated phosphatidylinositol hydrolysis in AR42J rat carcinoma cells." Thesis, The University of Arizona, 1989. http://hdl.handle.net/10150/277180.
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Receptor-activated phosphatidylinositol (PtdIns) hydrolysis was examined in AR42J rat pancreatic acini. Cholecystokinin-octapeptide (CCK₈) and bombesin induced a dose-dependent accumulation of [³H] inositol monophosphate ([³H]InsP₁). Manganese (Mn²⁺), a known calcium channel blocker, did not alter basal PtdIns hydrolysis. In contrast, when added 5 minutes prior to the addition of agonists for 60 minutes, Mn²⁺ markedly inhibited secretagogue-mediated [³H]InsP1 formation. Mn²⁺ also attenuated the CCK₈-mediated increase in biologically active inositol 1,4,5-trisphosphate and inositol 1,3,4,5-tetrakisphosphate. These inhibitory effects of Mn²⁺ were mimicked by lanthanum and by EGTA. Addition of calcium to EGTA-treated cells abolished the inhibitory effects of extracellular calcium depletion. Mn²⁺, La³⁺ and EGTA exerted similar inhibitory effects on PtdIns hydrolysis in pancreatic acini. These findings suggest that receptor-activated calcium influx is required for full activation of the CCK₈-mediated signal transduction pathway that is coupled to PtdIns hydrolysis.
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游燕珍 and Yin-chun Mabel Yau. "Studies on melatonin receptors in guinea pig platelets and melatonin actions on human leukemic megakaryoblast MEG-01 cells." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2001. http://hub.hku.hk/bib/B31242613.
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吳毅賢 and Samuel Ng. "Extracellular calcium in dopamine D1-receptor mediated growth hormone release from Chinese grass carp pituitary cells." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1997. http://hub.hku.hk/bib/B31219755.
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Bose, Diptiman Dipen. "Role of ryanodine receptors in neuronal calcium signalling and growth control." Scholarly Commons, 2002. https://scholarlycommons.pacific.edu/uop_etds/566.
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The versatility of Ca2+ as a messenger regulating a myriad of signalling events requires that the concentration of Ca2+ ions in the cytoplasm be highly regulated. Capacitative Ca2+ entry (CCE) or store-operated Ca2+ (SOC) entry, whereby the depletion of intracellular Ca2+ stores induces the influx of Ca2+ across the plasma membrane, plays a crucial role in Ca2+ signalling. Despite the recent advances in elucidating the entry pathway, its molecular identity, biophysical properties and store-depletion signal remains undefined. Thapsigargin (TG), a sarcoplasmic/endoplasmic reticulum Ca2+ A TPase pump (SERCA), inhibitor induces passive depletion of the internal Ca2+ stores and triggers CCE. The universality of this signal has been widely accepted and TG has proven to be a valuable tool in studying CCE. The neuronal cell line NG 115 -401 L lacks the TG activated Ca2+ influx pathway. Agonists of the ryanodine receptor (RyR); chlorom- cresol (CMC), polychlorinated biphenyl 95 (PCB), ryanodine, caffeine, and that of the inositol-1 ,4 ,5-trisphosphate receptor (IP3R), bradykinin, effectively couple to the activation of Ca2+ influx in these cells. The Ca2+ influx signal due to these agonists can be inhibited by SOC blockers such as La3+, Zn2+, Ni2+ and SF&F 96365. Thapsigargin, CMC and PCB95 share the same Ca2+ releasable pools in the 401 L cells. Our data thus suggests that the channels present in the 401 L cells are likely to be receptor-activated channels rather than the store-depletion activated channels. Cell viability studies show that thapsigargin (25 nM) can decrease viability by 75% within 24 hrs and the RyR agonist caffeine decreased viability to <60% within 24hrs. CMC, PCB95 and ryanodine also were cytotoxic at higher doses. Nuclear fragmentation patterns and activation of caspase-3 in thapsigargin and caffeine-treated cells suggest the induction of apoptosis within 12 hrs of treatment. The treated cells were shown to generate nitric oxide, a potential apoptosis inducing agent.
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Korpelainen, Eija. "Interleukin -3 receptor expression and function in now-hemopoietic cells /." Title page, contents and abstract only, 1995. http://web4.library.adelaide.edu.au/theses/09PH/09phk84.pdf.
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Fundytus, Marian Elaine. "Contribution of metabotropic glutamate receptors to opioid dependence." Thesis, McGill University, 1996. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=42034.
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We investigated the role of metabotropic glutamate receptors (mGluRs), and related intracellular second messengers, in the development of morphine tolerance and dependence. The mGluRs are divided into three groups: group I mGluRs are positively coupled to phosphatidylinositol (PI) hydrolysis, while group II and III mGluRs are negatively coupled to cyclic adensoine-3$ sp prime$,5$ sp prime$-monophosphate (cAMP) production. Opioid receptors are also coupled to these same systems, and have been shown to elicit changes in these messenger systems during chronic treatment.We showed that chronic intracerebroventricular (i.c.v.) administration of selective group II and III mGluR antagonists concurrently with subcutaneous (s.c.) morphine significantly reduced the severity of precipitated withdrawal symptoms. Conversely, acute i.c.v. injection of a selective group II mGluR antagonist just prior to the precipitation of withdrawal significantly exacerbated the severity of abstinence symptoms. In addition, acute i.c.v. injection of a selective group II mGluR agonist just prior to the precipitation of withdrawal significantly reduced abstinence symptoms. From these results we hypothesized that chronic opioid treatment may induce a desensitization of group II mGluRs.
We also demonstrated that chronic i.c.v. infusion of a selective group I mGluR antagonist concurrently with s.c. morphine significantly attenuated the precipitated withdrawal syndrome. In addition, we showed that chronic i.c.v. antagonism of $ delta$-opioid receptors with a highly selective antagonist also decreased the development of morphine dependence, as well as tolerance. Since both group I mGluRs and $ delta$-opioid receptors are positively coupled to PI hydrolysis, further evidence for a role of products of PI hydrolysis in the development of morphine dependence was obtained when we showed that selective chronic inhibition of protein kinase C (PKC) activation, as well as selective chronic inhibition of intracellular Ca$ sp{2+}$ release, concurrently with morphine treatment significantly reduced the severity of abstinence symptoms. Thus, compensatory changes usually elicited by chronic opioid treatment may be counteracted by antagonizing receptors positively coupled to PI hydrolysis, as well as by inhibiting products of PI hydrolysis.
In the General Discussion, we propose a model based on the possible interaction of mGluRs and opioid receptors, via related intracellular second messengers, to explain the development of morphine dependence.
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Mendelson, Scott Douglas. "Differential roles of serotonin receptor subtypes in the modulation of lordosis behaviour in the female rat." Thesis, University of British Columbia, 1988. http://hdl.handle.net/2429/29021.
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In 1985, Mendelson and Gorzalka proposed the dual role hypothesis of serotonergic modulation of lordosis behaviour. In this hypothesis it was proposed that serotonergic activity can either inhibit or facilitate lordosis behaviour. Specifically it was suggested that the lordosis-inhibiting effects of serotonin are mediated by activity at 5-HT₁ receptors, whereas lordosis-facilitating effects of serotonin are mediated by activity at 5-HT₂ receptors. The purpose of the following series of studies was both to confirm and to extend the dual role hypothesis. The intraperitoneal administration of the 5-HT2 antagonists pizotefin (1 mg/kg), cyproheptadine (1 mg/kg), metitepine (1 mg/kg), and ketanserin (1 mg/kg) were found to inhibit lordosis behavior in ovariectomized rats that had been primed with estradiol benzoate (EB) and progesterone (P). Pipamperone was ineffective. The 5-HT₂ agonist guipazine (3 mg/kg) was ineffective alone, but it reversed the inhibitory effects of pizotefin, cyproheptadine, and ketanserin. It did not reverse the effects of metitepine. The highly selective 5-HT₂ antagonist LY53857 (0.3 mg/kg) was also found to inhibit lordosis behaviour in female rats that had been primed with EB and P. The lordosis-inhibiting effect of LY53857 (1 mg/kg) in females primed with EB and P was reversed by quipazine (3 mg/kg). The nonselective 5-HT antagonist methysergide (7 mg/kg) was found to inhibit lordosis behavior 30 min after intraperitoneal administration to females treated chronically with EB, or with EB and P. However, methysergide was found to facilitate lordosis behavior 200 and 300 min after administration to female rats treated acutely with EB. In an analysis of dose response it was found that methysergide (0.02 - 7 mg/kg) administered 30 min prior to behavioural testing produced no facilitation of lordosis in females primed with EB. However, when administered 200 min prior to testing, methysergide (1 mg/kg) produced a significant facilitation of lordosis.
The administration of the 5-HT₁ A agonist 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH DPAT) inhibited lordosis behavior in ovariectomized rats primed with EB. 8-OH DPAT was ineffective at 0.01 mg/kg, whereas inhibition occurred at the 0.03, 0.1, 0.3, 1.0, and 3.0 mg/kg doses. In an evaluation of the effects of 8-OH DPAT on the expression of male sexual behaviour by females treated chronically with testosterone, 8-OH DPAT ( 1 mg/kg) increased the number of females mounting and significantly increased mount frequency. The 5-HT₁ A agonists ipsapirone (0.1 mg/kg) and gepirone (0.3 mg/kg) facilitated lordosis in females treated with EB. When administered at higher doses, ipsapirone (3.0 mg/kg) and buspirone (3.0 mg/kg) inhibited lordosis in rats treated with EB. In females treated with EB and P, ipsapirone (> 1.0 mg/kg), gepirone (> 0.3), and buspirone (> 0.3) inhibited lordosis behaviour. The newly developed 5-HT₁ A antagonist BMY 7378 (0.2 mg/kg) facilitated lordosis behaviour in females treated with EB. However, this facilitation was no longer apparent at the 5 mg/kg dose. BMY 7378 (0.04 - 5 mg/kg) was ineffective in females primed with EB and P. The 5-HTTB agonist 1 -(3-trifluoromethylphenyl)piperazine (TFMPP, 0.2 -5 mg/kg) was found to facilitate lordosis in females treated with EB. In females primed with EB and P, TFMPP (5 mg/kg) produced a significant inhibition of lordosis. The 5-HT₁ B agonist m-chlorophenylpiperazine (MCPP, 0.04 - 5 mg/kg) was ineffective in females primed either with EB or with EB and P.
The 5-HT₃ Antagonist ICS 205-930 (5 mg/kg) was found to facilitate lordosis behaviour, whereas the 5-HT₃ Antagonist MDL 72222 (0.05 - 5 mg/kg ) was found to be ineffective in females primed with EB.
The results of these studies tend to confirm that serotonergic activity can either inhibit or facilitate lordosis behaviour. It is suggested that the lordosis-inhibiting effects of serotonin are mediated by activity at postsynaptic 5-HTTA and possibly 5-HT₃ Receptors. The lordosis-facilitating effects of serotonin are mediated by activity at 5-HT₂ and possibly presynaptic 5-HT₁ B receptors. Finally, it is suggested that activity at somato-dendritic 5-HT₁ A autoreceptors may mediate facilitatory effects of low doses of 5-HT₁ A agonists. In closing, there is a discussion of the implications these results might hold for the understanding of the effects of serotonergic drugs on human behaviour.Arts, Faculty of
Psychology, Department of
Graduate
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Marsicano, Giovanni. "Physiological role of the cannabinoid receptor 1 (CB1) in the murine central nervous system." n.p, 2000. http://ethos.bl.uk/.
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Herrera, Yelenis. "Modulation of ASIC1a Function by Sigma-1 Receptors: Physiological and Pathophysiological Implications." [Tampa, Fla.] : University of South Florida, 2009. http://digital.lib.usf.edu/?e14.2855.
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Trout, Amanda L. "SEX DIFFERENCES IN CELL DEATH AND STEROID HORMONE RECEPTORS IN CORTICAL EXPLANTS." UKnowledge, 2013. http://uknowledge.uky.edu/physiology_etds/6.
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Estrogens, such as the biologically active 17-b estradiol (E2) have many actions in the male and female brain. Not only does E2 regulate reproductive behavior in adults, it organizes and activates the brains of younger animals in a sex-specific manner. In addition, many human studies have shown E2 to provide protection against a variety of neurological disorders, including stoke. These studies have been controversial and depend largely on the type and timing of hormone replacement. Animal studies are much less controversial and clearly demonstrate a neuroprotective role for E2 following ischemic brain injury. Because much of E2 neuroprotection requires sex steroid hormone receptors, it is essential to understand expression patterns of these receptors. For the current studies, I evaluated estrogen receptor alpha (ER α), estrogen receptor beta (ER β) and androgen receptor (AR) expression in the cortex. It is known that these receptors change in expression at several times in an animal’s life span including during early postnatal development and following ischemic brain injury. Here I used an in vitro cortical explant model to further examine how these receptors change both during development and following injury. This in vitro model is important because it provides a way to investigate changes in receptor expression pattern in the cortex without input from other brain regions. In addition to characterizing this model, I also evaluated the contribution of E2 to changes in receptor expression and on cell death following injury in the explants. To begin to decipher mechanisms for E2 mediated neuroprotection, I added antagonist for each of the receptors before and after injury. In each these experiments, I also examined potential sex differences by separating the female and male brains before I cultured the explants. Overall, these experiments showed that cortical explants are a good in vitro model. Here we found that E2 was protective in female, but not male cortical explants following injury. However, the exact mechanisms of E2-mediated neuroprotection are still to be deciphered.
Books on the topic "Cell receptors – Physiological effect"
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M, Vanhoutte Paul, and International Symposium on "Serotonin: from Cell Biology to Pharmacology and Therapeutics" (2nd : 1992 : Houston, Tex.), eds. Serotonin: From cell biology to pharmacology and therapeutics. Dordrecht: Kluwer Academic Publishers, 1993.
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Rodolfo, Paoletti, and International Symposium on "Serotonin: from Cell Biology to Pharmacology and Therapeutics" (1st : 1989 : Florence, Italy), eds. Serotonin: From cell biology to pharmacology and therapeutics. Dordrecht: Kluwer Academic Publishers, 1990.
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A3 adenosine receptors from cell biology to pharmacology and therapeutics. Dordrecht: Springer, 2010.
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Ret͡s︡eptory i vnutrikletochnyĭ kalʹt͡s︡iĭ. Moskva: "Nauka", 1994.
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Naibedya, Chattopadhyay, and Brown Edward M, eds. Calcium-sensing receptor. Boston: Kluwer Academic Pub., 2003.
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K, Sen Amar, and Lee Tyrone, eds. Receptors and ligands in psychiatry. Cambridge [England]: Cambridge University Press, 1988.
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L, Burnstein Kerry, ed. Steroid hormones and cell cycle regulation. Boston: Kluwer Academic Pub., 2002.
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1957-, Castellano Bernardo, and Nieto-Sampedro Manuel 1944-, eds. Glial cell function. Amsterdam: Elsevier, 2001.
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International Workshop on Adenosine and Xanthine Derivatives (1984 Wiesbaden, Germany). Adenosine: Receptors and modulation of cell function : proceedings of the International Workshop on Adenosine and Xanthine derivatives. Oxford [Oxfordshire]: IRL Press, 1985.
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J, Reis Donald, Bousquet Pascal, Parini Angelo, and International Symposium on Imidazoline Receptors (2nd : 1994 : New York, N.Y.), eds. The imidazoline receptor: Pharmacology, functions, ligands, and relevance to biology and medicine. New York: New York Academy of Sciences, 1995.
Find full textBook chapters on the topic "Cell receptors – Physiological effect"
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Sheen, L. Y. "Effect of Sulfur-Containing Active Principles in Garlic on the Physiological Function of Hepatocytes." In Animal Cell Technology: Basic & Applied Aspects, 59–63. Dordrecht: Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-017-0726-8_11.
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Cassoni, Paola, Anna Sapino, Anna Stella, and Gianni Bussolati. "Antiproliferative Effect of Oxytocin through Specific Oxytocin Receptors in Human Neuroblastoma and Astrocytoma Cell Lines." In Advances in Experimental Medicine and Biology, 245–46. Boston, MA: Springer US, 1998. http://dx.doi.org/10.1007/978-1-4615-4871-3_32.
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Abbas, Mohamed S., Hattem M. El-Shabrawi, Mai A. Selim, and Amira Sh Soliman. "Effect of Salt Stress on Physiological and Biochemical Parameters of African Locust Bean {Parkia biglobosa (Jacq.) Benth.} Cell Suspension Culture." In Mitigating Environmental Stresses for Agricultural Sustainability in Egypt, 215–47. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-64323-2_8.
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Yamamoto, Kei, Sophie Fischer-Holzhausen, Maria P. Fjeldstad, and Mary M. Maleckar. "Ordinary Differential Equation-based Modeling of Cells in Human Cartilage." In Computational Physiology, 25–39. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-05164-7_3.
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AbstractChondrocytes produce the extracellular cartilage matrix required for smooth joint mobility. As cartilage is not vascularised, and chondrocytes are not innervated by the nervous system, chondrocytes are therefore generally considered non-excitable. However, chondrocytes do express a range of ion channels, ion pumps, and receptors involved in cell homeostasis and cartilage maintenance. Dysfunction in these ion channels and pumps has been linked to degenerative disorders such as arthritis. Because the electrophysiological properties of chondrocytes are difficult to measure experimentally, mathematical modelling can instead be used to investigate the regulation of ionic currents. Such models can provide insight into the finely tuned parameters underlying fluctuations in membrane potential and cell behaviour in healthy and pathological conditions. Here, we introduce an open-source, intuitive, and extendable mathematical model of chondrocyte electrophysiology, implementing key proteins involved in regulating the membrane potential. Because of the inherent biological variability of cells and their physiological ranges of ionic concentrations, we describe a population of models that provides a robust computational representation of the biological data. This permits parameter variability in a manner mimicking biological variation, and we present a selection of parameter sets that suitably represent experimental data. Our mathematical model can be used to efficiently investigate the ionic currents underlying chondrocyte behaviour.
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Prasad, Priya. "Loss of Function of Sth1, The Catalytic Component of RSC (Remodel the Structure of Chromatin) Complex Grossly Alter the Chromatin Architecture." In Proceedings of the Conference BioSangam 2022: Emerging Trends in Biotechnology (BIOSANGAM 2022), 168–75. Dordrecht: Atlantis Press International BV, 2022. http://dx.doi.org/10.2991/978-94-6463-020-6_17.
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AbstractChromatin architecture has a profound effect on the gene expression in eukaryotes. It is constantly modulated in the cells in response to different stress condition and during the normal physiological process in the cell. The chromatin is also modulated during the cell growth and division, where several proteins involved during the cell cycle are synthesized, and hence the gene expression profile and chromatin state of an actively dividing cell differ from that of a resting cell in G0 state. Candida albicans, which is a harmless commensal in human host and an opportunistic fungal pathogen also show dynamic chromatin architecture, and this is facilitated by the several epigenetic determinants, which modulate the chromatin architecture. In this context, RSC (Remodel the structure of chromatin) complex in C. albicans is previously shown to be crucial for cell viability and to carry out several DNA templated events, like kinetochore function and cohesion enrichment. To correlate the role of RSC in kinetochore function with the chromatin architecture at centromeric and non-centromeric region, here we have shown that the chromatin at non-CEN7 regions shows lesser occupancy of nucleosomes in absence of Sth1 protein (catalytic component of RSC complex), which is due to the reduced binding but not due to the reduced expression of the histones.
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De Pauw, Ines, Carolien Boeckx, and An Wouters. "Mechanisms of Cetuximab Resistance and How to Overcome It." In Critical Issues in Head and Neck Oncology, 21–51. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-63234-2_3.
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AbstractDeregulated or increased signalling of the epidermal growth factor receptor (EGFR) plays an integral role in the development of various cancer types, including head and neck squamous cell carcinoma (HNSCC), making it a compelling drug target. However, after initially promising results of EGFR-targeted therapies, such as the monoclonal antibody cetuximab, it became clear that both intrinsic and acquired therapeutic resistance are major roadblocks in the field of personalised cancer treatments.In order to unravel and overcome resistance to cetuximab, at least two strategies can be adopted.Firstly, therapeutic resistance to anti-EGFR therapy may arise from mechanisms that can compensate for reduced EGFR signalling and/or mechanisms that can modulate EGFR-dependent signalling. In this chapter, we discuss which mechanisms of cetuximab resistance are already known and which ones deserve further investigation. This enhanced knowledge will guide us to rationally design and test novel combination therapies that overcome resistance to EGFR-targeting agents in cancer treatment.Secondly, an urgent need remains to develop novel targeted treatments for single-agent or combined therapy use. In this view, due to the particular mode of activation of the EGFR receptor, involving ligand-induced homo- and heterodimerization of the four HER receptors, an increased inhibition scope of HER receptors most likely results in a more potent blockade of the HER network, preventing premature emergence of resistance and leading to a more pronounced therapeutic benefit. We discuss two multitargeted compounds, being MEHD7945A (duligotuzumab) and afatinib, in this chapter.Despite the huge efforts to unravel the molecular landscape of HNSCC, the main clinically validated target remains EGFR. However, immune checkpoints, like programmed cell death protein 1 (PD-1), are gaining clinical approvals as well. We underscore the importance of adopting rational drug combinations to enhance the therapeutic effect of the EGFR-inhibitor cetuximab and highlight the ongoing search for predictive biomarkers, with the ultimate goal of delivering individualized cancer therapy to HNSCC patients.
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von Eckardstein, Arnold. "High Density Lipoproteins: Is There a Comeback as a Therapeutic Target?" In Prevention and Treatment of Atherosclerosis, 157–200. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/164_2021_536.
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AbstractLow plasma levels of High Density Lipoprotein (HDL) cholesterol (HDL-C) are associated with increased risks of atherosclerotic cardiovascular disease (ASCVD). In cell culture and animal models, HDL particles exert multiple potentially anti-atherogenic effects. However, drugs increasing HDL-C have failed to prevent cardiovascular endpoints. Mendelian Randomization studies neither found any genetic causality for the associations of HDL-C levels with differences in cardiovascular risk. Therefore, the causal role and, hence, utility as a therapeutic target of HDL has been questioned. However, the biomarker “HDL-C” as well as the interpretation of previous data has several important limitations: First, the inverse relationship of HDL-C with risk of ASCVD is neither linear nor continuous. Hence, neither the-higher-the-better strategies of previous drug developments nor previous linear cause-effect relationships assuming Mendelian randomization approaches appear appropriate. Second, most of the drugs previously tested do not target HDL metabolism specifically so that the futile trials question the clinical utility of the investigated drugs rather than the causal role of HDL in ASCVD. Third, the cholesterol of HDL measured as HDL-C neither exerts nor reports any HDL function. Comprehensive knowledge of structure-function-disease relationships of HDL particles and associated molecules will be a pre-requisite, to test them for their physiological and pathogenic relevance and exploit them for the diagnostic and therapeutic management of individuals at HDL-associated risk of ASCVD but also other diseases, for example diabetes, chronic kidney disease, infections, autoimmune and neurodegenerative diseases.
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Fowkes, Rob, V. Krishna Chatterjee, and Mark Gurnell. "Principles of hormone action." In Oxford Textbook of Medicine, edited by Mark Gurnell, 2245–57. Oxford University Press, 2020. http://dx.doi.org/10.1093/med/9780198746690.003.0243.
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Hormones, produced by glands or cells, are messengers which act locally or at a distance to coordinate the function of cells and organs. Types of hormone include: peptides (e.g. hypothalamic releasing factors) and proteins (e.g. insulin, growth hormone)—these generally interact with membrane receptors located on the cell surface, causing activation of downstream signalling pathways leading to alteration in gene transcription or modulation of biochemical pathways to effect a physiological response; steroids (e.g. cortisol, progesterone, testosterone, oestradiol) and other lipophilic substances (e.g. vitamin D, retinoic acid, thyroid hormone)—these act by crossing the plasma membrane to interact with intracellular receptors, with hormone action via nuclear receptors altering cellular gene expression directly.
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Gurnell, Mark, Jacky Burrin, and V. Krishna Chatterjee. "Principles of hormone action." In Oxford Textbook of Medicine, 1787–98. Oxford University Press, 2010. http://dx.doi.org/10.1093/med/9780199204854.003.1301_update_001.
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Hormones, produced by glands or cells, are messengers which act locally or at a distance to coordinate the function of cells and organs. Types of hormone include (1) peptides (e.g hypothalamic releasing factors) and proteins (e.g. insulin, growth hormone)—these generally interact with membrane receptors located on the cell surface, causing activation of downstream signalling pathways leading to alteration in gene transcription or modulation of biochemical pathways to effect a physiological response; (2) steroids (e.g. cortisol, progesterone, testosterone, oestradiol) and other lipophilic substances (e.g. vitamin D, retinoic acid, thyroid hormone)—these act by crossing the plasma membrane to interact with intracellular receptors, with hormone action via nuclear receptors altering cellular gene expression directly....
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Larson, Richard S., and Alexandre Chigaev. "Applications of Flow Cytometry to Cell Adhesion Biology: From Aggregates to Drug Discovery." In Flow Cytometry for Biotechnology. Oxford University Press, 2005. http://dx.doi.org/10.1093/oso/9780195183146.003.0023.
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Flow cytometry represents a powerful and evolving methodologic approach to cell adhesion biology. In its beginnings, flow cytometry was used solely to measure the expression of receptors on cellular surfaces and to correlate that expression with biologic function in non-flow-cytometry-based assays. From this primitive beginning, applications have proliferated and now include methodologies that measure real-time aggregation, receptor activity, and the downstream biologic consequences of cell adhesion. These biologic applications have led to platforms that are easily employed as drug screening and target validation tools. Functional assays that measure cell aggregation were initially developed to measure cell–cell interactions in the immune system, especially between cytotoxic cells and various cell types targeted as the focus of their cytotoxic activity. The cytotoxic “effector” cells and the “target” cells were stained with spectrally distinct fluorescent dyes, gently sedimented together into a cell pellet, and allowed to interact under static conditions for designated intervals of time. When resuspended and introduced into the flow cytometer, effector cells adherent to target cells were detected as “conjugate” particles emitting the fluorescence spectra of both dyes. Nonadherent effector and target cells were detected as monochromatically fluorescent particles. By using ion concentration–sensitive cytoplasmic fluorescent probes as the effector cell labels, it was also possible to detect physiological changes in intracellular ionized calcium and pH elicited by adhesion to target cells and to correlate these responses with cytotoxic function. Later, methods were developed for continuously measuring (“real-time”) cell adhesive interactions as they progressed over time in a fluid shear environment. A limitation of early adhesion kinetics analyses was that the fluid shear was generated with a magnetic stir bar and was thus neither homogeneous nor amenable to precise quantification. Subsequent refinement of these methods has enabled flow cytometric analysis of cell mixtures subjected to a more uniform and quantifiable fluid shear environment generated in a cone-plate viscometer. Cell mixtures are sampled periodically from the viscometer into a formalin fixative solution for subsequent off-line flow cytometric analysis. These experiments have been able to demonstrate a remarkable potentiation of adhesion efficiency through the combined action of two sets of adhesion molecules and a progression of adhesion molecule use from one class to another over time.
Conference papers on the topic "Cell receptors – Physiological effect"
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Pfliegler, G., J. Arnout, J. Kienast, K. Wittevrongel, and J. Vermylen. "INSULIN RECEPTORS ARE NOT COUPLED TO THE PHOSPHOINOSITIDE OR ADENYLCYCLASE MESSENGER SYSTEMS IN HUMAN PLATELETS." In XIth International Congress on Thrombosis and Haemostasis. Schattauer GmbH, 1987. http://dx.doi.org/10.1055/s-0038-1644523.
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Insulin receptors have been found not only on its “target Cells” but also on several other cell-types, including human platelets. From studies on adipocytes and liver cells it seems that they are coupled both to the adenylate cyclase-cyclic AMP and the polyphosphoinositide messenger systems. Circulating blood cells might faithfully reflect the insulin receptor state of target organ tissues. Impaired platelet function has an important role in the pathogenesis of vascular and thrombotic complications in diabetes mellitus, and insulin seems to act directly on platelets. A reduction in the number and binding capacity of platelet insulin receptors in diabetic patients (Udvardy et al. 1986) suggested a (patho)physiological role for these receptors. In our studies, insulin (1 × 10-9 - 1 × 10-6 M) did not affect basal platelet cyclic AMP levels, as measured following incorporation of [3H] adenine. Insulin did not prevent PGI2 (25-75 nmol/L) induced cyclic AMP formation in platelets. Insulin did not modify the basal levels of inositol phosphate (IP), IP2 or IP3 in platelets, as measured following incorporation of [3H] inositol. Insulin did not affect formation of IP, IP2 or IP3 by thrombin. No changes in cytosolic free Ca2+ (Quin 2 method) were detected in the presence of insulin. Sodium nitroprusside on the other hand, which is known to mimic several effects of insulin on adipocytes, inhibited IP formation induced by threshold concentrations of thrombin.On the basis of our results the insulin receptors in human platelets seem to be “non-functional” insofar as their occupancy is not accompanied by the stimulation or inhibition of phospho-inositide breakdown or cyclic AMP formation. Similarly, “silent” muscarinic-cholinergic receptors have recently been reported in human erythrocytes (Sehar et al. 1986).
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Sarvestani, Alireza. "A Theoretical Analysis for the Effect of Substrate Elasticity on Cellular Adhesion." In ASME 2010 First Global Congress on NanoEngineering for Medicine and Biology. ASMEDC, 2010. http://dx.doi.org/10.1115/nemb2010-13311.
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Cell behavior is mediated by variety of physiochemical properties of extracellular matrix (ECM). Material composition, surface chemistry, roughness, and distribution pattern of cell adhesive proteins are among the ECM properties which are known to modulate various cellular physiological functions. Mechanical stiffness of ECM in particular is found to be a major regulator for multiple aspects of cellular function. Experiments show that cells in general, exhibit an apparent adhesion preference for stiffer substrates with a larger projected spread area with increasing the substrate stiffness. In addition, it seems that the effect of substrates elasticity is strongly coupled with adhesivity of the substrate; on relatively stiff substrates the spread area of the cells exhibits strong biphasic dependence to the changes in ligand density, whereas on soft substrates their limited spreading is much less sensitive to the density of surface ligands. This study aims to propose a theoretical basis for the interplay between substrate elasticity and cellular adhesion, using an equilibrium thermodynamic model. Within this framework, the equilibrium contact area is assumed to ensure minimization of the free energy contributed by interfacial adhesive and repulsive interactions between the membrane and substrate as well as the deformation of cell and substrate. Hence, this thermodynamic model overlooks the contribution of intracellular signaling or actively regulated cytoskeleton and assumes that cell adhesion is solely a result of the balance between the membrane-substrate repulsive potentials, stored elastic energy, binding enthalpy, and mixing entropy of mobile receptors. The predictions of this purely mechanistic model for cell adhesion qualitatively follow the experimental results featuring the variation of cell spread area on compliant bio-adhesive substrates. This suggests that the mechanistic pathways inherent to membrane-substrate interactions may be equally important as intracellular signaling pathways to mediate the cellular adhesion.
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Taylor, Graham, Donald Leo, and Andy Sarles. "Detection of Botulinum Neurotoxin/A Insertion Using an Encapsulated Interface Bilayer." In ASME 2012 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/smasis2012-8101.
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Many signaling mechanisms in living cells occur at biological boundaries via cell surface receptors and membrane proteins embedded in lipid bilayers. The coordination of actions of sensory and motor neurons in the nervous system represents one example of many that heavily depends on lipid membrane bound receptor mediated signaling. As a result, chemical and biological toxins that disrupt these neural signals can have severe physiological effects, including paralysis and death. Botulinum neurotoxin Type A (BoNT/A) is a proteolytic toxin that inserts through vesicle membranes and cleaves membrane receptors involved with synaptic acetylcholine uptake and nervous system signal conduction. In this work, we investigate the use of a Bioinspired liquid-supported interface bilayer for studying the insertion of BoNT/A toxin molecules into synthetic lipid bilayers. DPhPC lipid bilayers are formed using the regulated attachment method (RAM), as developed by Sarles and Leo, and we perform current measurements on membranes exposed to BoNT/A toxin to characterize activity of toxin interacting with the synthetic bilayer. Control tests without toxin present are also presented. The results of these tests show an increase in the magnitude of current through the bilayer when the toxin is included. We interpret these initial results to mean that incorporation of BoNT/A toxin at a high concentration in an interface bilayer increases the permeability of the membrane as a result of toxin molecules spanning the thickness of the bilayer.
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Patel, Nisha S., and Alisa Morss Clyne. "A Computational Model of Fibroblast Growth Factor-2 Binding to Isolated and Intact Cell Surface Receptors: Effects of Fibroblast Growth Factor-2 Concentration, Flow and Delivery Mode." In ASME 2012 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/sbc2012-80798.
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Fibroblast growth factor-2 (FGF2) plays an important role in both healthy vascular cell functions and pathogenesis in cancer, atherosclerosis and reduced perfusion in diabetes (1–4). FGF2 therapy and targeted drug delivery have great potential in the treatment of such diseases, but have had little clinical success. FGF2 binding kinetics to heparan sulfate proteoglycan (HSPG) and fibroblast growth factor receptors (FGFR) have been largely studied under static conditions (5), however FGF2 binding to endothelial cells occurs physiologically under fluid flow conditions. Understanding complex FGF2 binding kinetics would enable the development of new anti- and pro-angiogenic therapeutics. We developed a computational model of FGF2 binding to FGFR and HSPG with flow to investigate the effect of fluid flow and FGF2 delivery mode on FGF2 binding to isolated or combined binding sites.
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Van Reempts, J., B. Van Deuren, M. Borqers, and F. De Clerck. "R 68 070, A COMBINED TXA2-SYNTHETASE/TXA2-PROSTAGLANDIN ENDOPEROXIDE RECEPTOR INHIBITOR. REDUCES CEREBRAL INFARCT SIZE AFTER PHOTOCHEMICALLY INITIATED THROMBOSIS IN SPONTANEOUSLY HYPERTENSIVE RATS." In XIth International Congress on Thrombosis and Haemostasis. Schattauer GmbH, 1987. http://dx.doi.org/10.1055/s-0038-1643470.
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The effects of R 68 070, an oxime-alkane carboxylic acid derivative combining specific thromboxane A2 (TXA2) synthetase inhibition with TXA2/prostaglandin endoperoxide receptor blockade in one molecule, were investigated in a model of photochemically induced stroke in spontaneously hypertensive rats.Each experimental group was compared with an untreated control group. All animals were anesthetized with halothane in N20/02 and artificially ventilated. After incision of the scalp and stereotaxic positioning of a fibre optic light source, halothane was discontinued. When physiological variables reached normal values, a focal cortical infarction was produced by injection of 10 mg.kg-1 rose bengal and 20 min irradiation of the brain through the intact skull. Four hours later the brains were perfusion fixed and damaged areas measured on consecutive histologic sections. Infarct size was calculated by numerical integration.R 68 070 (40 mg.kg-1 p.o.,-3 h) significantly reduced the cerebral infarct size to 2.32 mm3 compared with 5.78 mm3 in controls (median values; n = 5; p < 0.05). At 2.5 mg.kg-1 the lesion was reduced from 11.75 mm3 in the control group to 7.82 mm3 in the treated group (n = 5; p = 0.095). Serum TXB2 levels were reduced by > 80 %.Production of damage in this model is based upon photodynamic generation of singlet molecular oxygen, resulting in peroxidative endothelial cell injury and subsequent platelet thrombus formation. Protection with R 68 070 can be explained by the anti-thrombotic effect of the compound. The relative contribution to this protective effect of synthetase and receptor blockade by R 68 070 are being investigated.
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Fowlkes, P. M., P. K. Lund, M. Blake, and J. Snouwaert. "THE REGULATION OF FIBRINOGEN PRODUCTION INVOLVES AT LEAST ONE OTHER HEPATOCYTE GENE." In XIth International Congress on Thrombosis and Haemostasis. Schattauer GmbH, 1987. http://dx.doi.org/10.1055/s-0038-1644317.
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It is currently thought that glucocorticosteriods have a direct effect on the transcription of the alpha, beta and gamma fibrinogen genes. However, our studies indicate that while corticosteriods play a role in fibrinogen production, this role is not due to transcriptional activation via glucocorticosteriod receptors. In initial experiments, we compared the levels of fibrinogen mRNA in hepatocytes isolated from hypophysectomized rats to those from control animals. The levels of mRNA in hypophysectomized rats, which produce little ACTH or corticosteriods, were significantly higher than the levels in control animals. Albumin mRNA levels were unaffected by hypophysectomy. These results are in opposition to those which we had anticipated. Based on previously published data, we had thought that physiologic deprivation of corticosteriods would lead to decreased levels of fibrinogen. We propose that these results are related to the negative feedback that corticosteroids have on Hepatocyte Stimulating Factor (HSF) production through a tightly controlled feedback circuit. To investigate the role of corticosteriods in fibrinogen gene regulation, we have conducted experiments with primary hepatocytes in culture and rat FAZA cells (continuous hepatoma cell line). There is a 4 to 5 fold increase in fibrinogen production when these cells are treated with HSF but no change when these cells are treated with dexamethasone alone. However, there is a marked additional increase in the production of fibrinogen with the combination of dexamethasone and HSF. Data gathered through kinetic analysis of this synergistic interaction suggest that the maximum response to HSF requires another gene product whose production is responsive to dexamethasone. Detailed analysis of the rate of transcription of thegamma fibrinogen gene, its processing and mRNA turnover suggests a specific role for this gene product in regulating fibrinogen synthesis. Characterization of this gene product will lead to greater understanding of the regulation of the Acute Phase Reactants.
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Park, Seok-Woo, and Myung-Whun Sung. "Abstract 3811: The receptors-independent anti-cancer effect of anandamide in head and neck squamous cell carcinoma cells." In Proceedings: AACR 103rd Annual Meeting 2012‐‐ Mar 31‐Apr 4, 2012; Chicago, IL. American Association for Cancer Research, 2012. http://dx.doi.org/10.1158/1538-7445.am2012-3811.
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Adnan, Ashfaq, and Wing Kam Liu. "Electrostatic Self-Assembly of Functionalized Nanodiamonds and Their Binding Capacity With Doxorubicin Drugs." In ASME 2010 First Global Congress on NanoEngineering for Medicine and Biology. ASMEDC, 2010. http://dx.doi.org/10.1115/nemb2010-13164.
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While cancers have no known cure, some of them can be successfully treated with the combination of surgery and systematic therapy. In general, systemic/widespread chemotherapy is usually injected into the bloodstream to attempt to target cancer cells. Such procedure often imparts devastating side effects because cancer drugs are nonspecific in activity, and transporting them throughout the bloodstream further reduces their ability to target the right region. This means that they kill both healthy and unhealthy cells. It has been observed that the physiological conditions of the fluids around living cells can be characterized by pH, and the magnitude of pH around a living cell is different from cancerous cells. Moreover, a multiscale anatomy of carcinoma will reveal that the microstructure of cancer cells contains some characteristic elements such as specific biomarker receptors and DNA molecules that exclusively differentiate them from healthy cells. If these cancer specific ligands can be intercalated by some functional molecules supplied from an implantable patch, then the patch can be envisioned to serve as a complementary technology with current systemic therapy to enhance localized treatment efficiency, minimize excess injections/surgeries, and prevent tumor recurrence. The broader objective of our current research is to capture some fundamental insights of such drug delivery patch system. It is envisioned that the essential components of the device is nanodiamonds (ND), parylene buffer layer and doxorubicin (DOX) drugs. In its simplest form, self-assembled nanodiamonds - functionalized or pristine, and DOX molecules are contained inside parylene capsule. The efficient functioning of the device is characterized by its ability to precisely detect targets (cancer cells) and then to release drugs at a controlled manner. The fundamental science issues concerning the development of the ND-based device include: 1. A precise identification of the equilibrium structure and self assembled morphology of nanodiamonds, 2. Fundamental understanding of the drug adsorption and desorption process to and from NDs, and 3. The rate of drug release through the parylene buffers. The structure of the nanodiamond (ND) is crucial to the adsorption and desorption of drug molecules because it not only changes the self-assembly configuration but also alters the surface electrostatics. To date, the structure and electrostatics of NDs are not yet well understood. A density functional tight binding theory (DFTB) study on smaller [2] NDs suggests a facet dependent charge distributions on ND surfaces. These charges are estimated by Mulliken Analysis [1]. Using the charges for smaller NDs (∼valid for 1–3.3 nm dia ND) we first projected surface charges for larger (4–10 nm) truncated octahedral nanodiamonds (TOND), and it has been found that the [100] face and the [111] face contain positively and negatively charged atoms, respectively. These projected charges are then utilized to obtain the self assembled structure of pristine TONDs from Molecular Dynamics (MD) simulations [4] as shown in Fig. 1. The opposite charges on the [100] and [111] face invoked electrostatic attractions among the initially isolated NDs and a network of nanodiamond agglutinates are formed as evidenced in Fig. 1(b). This study confirms why as manufactured NDs are found in agglomerated form. The study also suggests that a large fraction of ND surfaces become unavailable for drug absorption as many of the [100] faces are coherently connected to [111] faces. As a result, it can be perceived that effective area for drug adsorption on ND surfaces will be less compared to theoretical prediction which suggests that a 4nm TOND may contain as high 360 drug molecules on its surface [5]. It has been observed that as manufactured NDs may contain a variety of functional groups, and currently, we are studying the mechanism of self-assembly for functionalized nanodiamonds so that we understand the role of functional groups. The next phase of calculation involves binding of the DOX to the NDs. Essentially, the understanding of drug absorption and desorption profile at a controlled rate to and from NDs is the most critical part of the device design. Some recent quantum calculation suggests that part of NDs and drug molecules contain opposite charges at their surfaces; it has been a natural interpretation that interactions between ND and drug molecules should be straight-forward — NDs should attract to drugs as soon as they come closure. Recent experiments [6], however, suggest that NDs usually do not interact with drug molecules in the presence of neutral solutions. Addition of NaCl in the solution improves the interaction dramatically. In the first part of the study, we [3–5] have studied the interaction of single DOX molecules with TOND surfaces via MD simulation. As shown in Fig. 2, this study suggests that DOX molecules first arrange them around the preferential sites on nanodiamonds (e.g. around the [111] face) and then spontaneously attach on the surface. It is also observed that only DOX molecule is attached per facets of TONDs. It can be noted that each TOND has 6 [100] face and 8 [111] faces. Figure 3 shows the energy minimization process during the DOX-ND interaction. It can be noted that these simulations have been performed in vacuum environment. In order to see how DOX interacts in solution media, another set of simulations have been conducted where “vacuum” environment have been replaced with solution media of different pH. Moreover, functionalization on the ND surfaces will create a different environment for the DOX molecules. Research is underway to capture the fundamental physics on the DOX loading and release to and from functionalized nanodiamonds. Once we understand the essential physics of drug loading and unloading, in the future we plan to model diffusion controlled drug release through ND coated film device by incorporating the multiscale science learned from the current study. Results from this study will provide fundamental insight on the definitive targeting of infected cells and high resolution controlling of drug molecules.
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Christ, Kevin V., Kyle B. Williamson, Kristyn S. Masters, and Kevin T. Turner. "Characterization of the Effect of Geometry on Single Cell Adhesion Strength Using a Microfluidic Device." In ASME 2007 International Mechanical Engineering Congress and Exposition. ASMEDC, 2007. http://dx.doi.org/10.1115/imece2007-43775.
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Cell adhesion plays a crucial role in a number of fundamental physiological processes and is important in the development of implantable biomaterials. Cell adhesion strength has previously been measured using a range of techniques, including population assays (e.g., centrifugation [1], hydrodynamic flow [2]) and single-cell methods (e.g., AFM [3], micropipette manipulation [4]). Population studies are unable to provide detailed information about individual cell behavior, while the single-cell methods are often time-consuming and difficult to perform. Microfluidic channels present a way to generate well-defined stress fields on cells [5]. The small dimensions of these channels result in low Reynolds numbers that allow for the generation of sufficiently large stresses to detach well-spread cells under laminar flow conditions. In the present work, a microfluidic channel was used to controllably load adhered single-cells to detachment and measure the adhesion strength. Using this assay, the effect of cell geometry on adhesion strength was investigated.
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Aghilinejad, Arian, Mohammad Aghaamoo, and Xiaolin Chen. "Numerical Study of Joule Heating Effect on Dielectrophoresis-Based Circulating Tumor Cell Separation." In ASME 2017 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/imece2017-70340.
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Insulator-based dielectrophoresis (iDEP) is known as a powerful technique for separation and manipulation of bioparticles, using arrays of insulating posts and external electrical field. In this research, we utilized numerical simulation to study, in detail, the Joule heating which is one the most important phenomena in iDEP technique specially related to bioparticles separation and manipulation in physiological samples. Although Joule heating has been observed in both electrode-based and insulator dielectrophoresis, its effect is more significant in iDEP since higher electric potentials are required in this technology. As a result of the external electrical field, the temperature gradients would create conductivity, permittivity, viscosity and density local gradients in the solution, and consequently cause bulk fluid forces and fluid motion, known as electrothermal flow (ET). These flow circulations can cause unpredicted behavior of the device and even cause problems due to clogging. Moreover, the temperature rise due to the Joule heating could threaten the cell viability. In this study, we are going to develop a robust numerical model for predicting the flow behavior in the existence of external electric field and determining the temperature and velocity profile which can determine the cell viability and clogging problem in iDEP microdevices. The developed numerical tool was used based on the properties of circulating tumor cells (CTCs) and White blood cells (WBCs) and their separation.
Reports on the topic "Cell receptors – Physiological effect"
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Rafaeli, Ada, and Russell Jurenka. Molecular Characterization of PBAN G-protein Coupled Receptors in Moth Pest Species: Design of Antagonists. United States Department of Agriculture, December 2012. http://dx.doi.org/10.32747/2012.7593390.bard.
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The proposed research was directed at determining the activation/binding domains and gene regulation of the PBAN-R’s thereby providing information for the design and screening of potential PBAN-R-blockers and to indicate possible ways of preventing the process from proceeding to its completion. Our specific aims included: (1) The identification of the PBAN-R binding domain by a combination of: (a) in silico modeling studies for identifying specific amino-acid side chains that are likely to be involved in binding PBAN with the receptor and; (b) bioassays to verify the modeling studies using mutant receptors, cell lines and pheromone glands (at tissue and organism levels) against selected, designed compounds to confirm if compounds are agonists or antagonists. (2) The elucidation ofthemolecular regulationmechanisms of PBAN-R by:(a) age-dependence of gene expression; (b) the effect of hormones and; (c) PBAN-R characterization in male hair-pencil complexes. Background to the topic Insects have several closely related G protein-coupled receptors (GPCRs) belonging to the pyrokinin/PBAN family, one with the ligand pheromone biosynthesis activating neuropeptide or pyrokinin-2 and another with diapause hormone or pyrokinin-1 as a ligand. We were unable to identify the diapause hormone receptor from Helicoverpa zea despite considerable effort. A third, related receptor is activated by a product of the capa gene, periviscerokinins. The pyrokinin/PBAN family of GPCRs and their ligands has been identified in various insects, such as Drosophila, several moth species, mosquitoes, Triboliumcastaneum, Apis mellifera, Nasoniavitripennis, and Acyrthosiphon pisum. Physiological functions of pyrokinin peptides include muscle contraction, whereas PBAN regulates pheromone production in moths plus other functions indicating the pleiotropic nature of these ligands. Based on the alignment of annotated genomic sequences, the primary and secondary structures of the pyrokinin/PBAN family of receptors have similarity with the corresponding structures of the capa or periviscerokinin receptors of insects and the neuromedin U receptors found in vertebrates. Major conclusions, solutions, achievements Evolutionary trace analysisof receptor extracellular domains exhibited several class-specific amino acid residues, which could indicate putative domains for activation of these receptors by ligand recognition and binding. Through site-directed point mutations, the 3rd extracellular domain of PBAN-R was shown to be critical for ligand selection. We identified three receptors that belong to the PBAN family of GPCRs and a partial sequence for the periviscerokinin receptor from the European corn borer, Ostrinianubilalis. Functional expression studies confirmed that only the C-variant of the PBAN-R is active. We identified a non-peptide agonist that will activate the PBAN-receptor from H. zea. We determined that there is transcriptional control of the PBAN-R in two moth species during the development of the pupa to adult, and we demonstrated that this transcriptional regulation is independent of juvenile hormone biosynthesis. This transcriptional control also occurs in male hair-pencil gland complexes of both moth species indicating a regulatory role for PBAN in males. Ultimate confirmation for PBAN's function in the male tissue was revealed through knockdown of the PBAN-R using RNAi-mediated gene-silencing. Implications, both scientific and agricultural The identification of a non-peptide agonist can be exploited in the future for the design of additional compounds that will activate the receptor and to elucidate the binding properties of this receptor. The increase in expression levels of the PBAN-R transcript was delineated to occur at a critical period of 5 hours post-eclosion and its regulation can now be studied. The mysterious role of PBAN in the males was elucidated by using a combination of physiological, biochemical and molecular genetics techniques.
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Altstein, Miriam, and Ronald J. Nachman. Rational Design of Insect Control Agent Prototypes Based on Pyrokinin/PBAN Neuropeptide Antagonists. United States Department of Agriculture, August 2013. http://dx.doi.org/10.32747/2013.7593398.bard.
Full textAbstract:
The general objective of this study was to develop rationally designed mimetic antagonists (and agonists) of the PK/PBAN Np class with enhanced bio-stability and bioavailability as prototypes for effective and environmentally friendly pest insect management agents. The PK/PBAN family is a multifunctional group of Nps that mediates key functions in insects (sex pheromone biosynthesis, cuticular melanization, myotropic activity, diapause and pupal development) and is, therefore, of high scientific and applied interest. The objectives of the current study were: (i) to identify an antagonist biophores (ii) to develop an arsenal of amphiphilic topically active PK/PBAN antagonists with an array of different time-release profiles based on the previously developed prototype analog; (iii) to develop rationally designed non-peptide SMLs based on the antagonist biophore determined in (i) and evaluate them in cloned receptor microplate binding assays and by pheromonotropic, melanotropic and pupariation in vivo assays. (iv) to clone PK/PBAN receptors (PK/PBAN-Rs) for further understanding of receptor-ligand interactions; (v) to develop microplate binding assays for screening the above SMLs. In the course of the granting period A series of amphiphilic PK/PBAN analogs based on a linear lead antagonist from the previous BARD grant was synthesized that incorporated a diverse array of hydrophobic groups (HR-Suc-A[dF]PRLa). Others were synthesized via the attachment of polyethylene glycol (PEG) polymers. A hydrophobic, biostablePK/PBAN/DH analog DH-2Abf-K prevented the onset of the protective state of diapause in H. zea pupae [EC50=7 pmol/larva] following injection into the preceding larval stage. It effectively induces the crop pest to commit a form of ‘ecological suicide’. Evaluation of a set of amphiphilic PK analogs with a diverse array of hydrophobic groups of the formula HR-Suc-FTPRLa led to the identification of analog T-63 (HR=Decyl) that increased the extent of diapause termination by a factor of 70% when applied topically to newly emerged pupae. Another biostablePK analog PK-Oic-1 featured anti-feedant and aphicidal properties that matched the potency of some commercial aphicides. Native PK showed no significant activity. The aphicidal effects were blocked by a new PEGylated PK antagonist analog PK-dF-PEG4, suggesting that the activity is mediated by a PK/PBAN receptor and therefore indicative of a novel and selective mode-of-action. Using a novel transPro mimetic motif (dihydroimidazole; ‘Jones’) developed in previous BARD-sponsored work, the first antagonist for the diapause hormone (DH), DH-Jo, was developed and shown to block over 50% of H. zea pupal diapause termination activity of native DH. This novel antagonist development strategy may be applicable to other invertebrate and vertebrate hormones that feature a transPro in the active core. The research identifies a critical component of the antagonist biophore for this PK/PBAN receptor subtype, i.e. a trans-oriented Pro. Additional work led to the molecular cloning and functional characterization of the DH receptor from H. zea, allowing for the discovery of three other DH antagonist analogs: Drosophila ETH, a β-AA analog, and a dF analog. The receptor experiments identified an agonist (DH-2Abf-dA) with a maximal response greater than native DH. ‘Deconvolution’ of a rationally-designed nonpeptide heterocyclic combinatorial library with a cyclic bis-guanidino (BG) scaffold led to discovery of several members that elicited activity in a pupariation acceleration assay, and one that also showed activity in an H. zea diapause termination assay, eliciting a maximal response of 90%. Molecular cloning and functional characterization of a CAP2b antidiuretic receptor from the kissing bug (R. prolixus) as well as the first CAP2b and PK receptors from a tick was also achieved. Notably, the PK/PBAN-like receptor from the cattle fever tick is unique among known PK/PBAN and CAP2b receptors in that it can interact with both ligand types, providing further evidence for an evolutionary relationship between these two NP families. In the course of the granting period we also managed to clone the PK/PBAN-R of H. peltigera, to express it and the S. littoralis-R Sf-9 cells and to evaluate their interaction with a variety of PK/PBAN ligands. In addition, three functional microplate assays in a HTS format have been developed: a cell-membrane competitive ligand binding assay; a Ca flux assay and a whole cell cAMP ELISA. The Ca flux assay has been used for receptor characterization due to its extremely high sensitivity. Computer homology studies were carried out to predict both receptor’s SAR and based on this analysis 8 mutants have been generated. The bioavailability of small linear antagonistic peptides has been evaluated and was found to be highly effective as sex pheromone biosynthesis inhibitors. The activity of 11 new amphiphilic analogs has also been evaluated. Unfortunately, due to a problem with the Heliothis moth colony we were unable to select those with pheromonotropic antagonistic activity and further check their bioavailability. Six peptides exhibited some melanotropic antagonistic activity but due to the low inhibitory effect the peptides were not further tested for bioavailability in S. littoralis larvae. Despite the fact that no new antagonistic peptides were discovered in the course of this granting period the results contribute to a better understanding of the interaction of the PK/PBAN family of Nps with their receptors, provided several HT assays for screening of libraries of various origin for presence of PK/PBAN-Ragonists and antagonists and provided important practical information for the further design of new, peptide-based insecticide prototypes aimed at the disruption of key neuroendocrine physiological functions in pest insects.
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Meidan, Rina, and Joy Pate. Roles of Endothelin 1 and Tumor Necrosis Factor-A in Determining Responsiveness of the Bovine Corpus Luteum to Prostaglandin F2a. United States Department of Agriculture, January 2004. http://dx.doi.org/10.32747/2004.7695854.bard.
Full textAbstract:
The corpus luteum (CL) is a transient endocrine gland that has a vital role in the regulation of the estrous cycle, fertility and the maintenance of pregnancy. In the absence of appropriate support, such as occurs during maternal recognition of pregnancy, the CL will regress. Prostaglandin F2a (PGF) was first suggested as the physiological luteolysin in ruminants several decades ago. Yet, the cellular mechanisms by which PGF causes luteal regression remain poorly defined. In recent years it became evident that the process of luteal regression requires a close cooperation between steroidogenic, endothelial and immune cells, all resident cells of this gland. Changes in the population of these cells within the CL closely consort with the functional changes occurring during various stages of CL life span. The proposal aimed to gain a better understanding of the intra-ovarian regulation of luteolysis and focuses especially on the possible reasons causing the early CL (before day 5) to be refractory to the luteolytic actions of PGF. The specific aims of this proposal were to: determine if the refractoriness of the early CL to PGF is due to its inability to synthesize or respond to endothelin–1 (ET-1), determine the cellular localization of ET, PGF and tumor necrosis factor a (TNF a) receptors in early and mid luteal phases, determine the functional relationships among ET-1 and cytokines, and characterize the effects of PGF and ET-1 on prostaglandin production by luteal cell types. We found that in contrast to the mature CL, administration of PGF2a before day 5 of the bovine cycle failed to elevate ET-1, ETA receptors or to induce luteolysis. In fact, PGF₂ₐ prevented the upregulation of the ET-1 gene by ET-1 or TNFa in cultured luteal cells from day 4 CL. In addition, we reported that ECE-1 expression was elevated during the transitionof the CL from early to mid luteal phase and was accompanied by a significant rise in ET-1 peptide. This coincides with the time point at which the CL gains its responsiveness to PGF2a, suggesting that ability to synthesize ET-1 may be a prerequisite for luteolysis. We have shown that while ET-1 mRNA was exclusively localized to endothelial cells both in young and mature CL, ECE-1 was present in the endothelial cells and steroidogenic cells alike. We also found that the gene for TNF receptor I is only moderately affected by the cytokines tested, but that the gene for TNF receptor II is upregulated by ET-1 and PGF₂ₐ. However, these cytokines both increase expression of MCP-1, although TNFa is even more effective in this regard. In addition, we found that proteins involved in the transport and metabolism of PGF (PGT, PGDH, COX-2) change as the estrous cycle progresses, and could contribute to the refractoriness of young CL. The data obtained in this work illustrate ET-1 synthesis throughout the bovine cycle and provide a better understanding of the mechanisms regulating luteal regression and unravel reasons causing the CL to be refractory to PGF2a.
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Coplin, David, Isaac Barash, and Shulamit Manulis. Role of Proteins Secreted by the Hrp-Pathways of Erwinia stewartii and E. herbicola pv. gypsophilae in Eliciting Water-Soaking Symptoms and Initiating Galls. United States Department of Agriculture, June 2001. http://dx.doi.org/10.32747/2001.7580675.bard.
Full textAbstract:
Many bacterial pathogens of plants can inject pathogenicity proteins into host cells using a specialized type III secretion system encoded by hrpgenes. This system deliver effector proteins, into plant cells that function in both susceptible and resistant interactions. We have found that the virulence of Erwinia stewartii(Es; syn. Pantoea stewartii) and Erwinia herbicola pv. gypsophilae (Ehg, syn. Pantoea agglomerans), which cause Stewart's wilt of corn and galls on Gypsophila, respectively, depends on hrpgenes. The major objectives of this project were: To increase expression of hrpgenes in order to identify secreted proteins; to identify genes for proteins secreted by the type-III systems and determine if they are required for pathogenicity; and to determine if the secreted proteins can function within eukaryotic cells. We found that transcription of the hrp and effector genes in Es and Ehg is controlled by at least four genes that constitute a regulatory cascade. Environmental and/or physiological signaling appears to be mediated by the HrpX/HrpY two component system, with HrpX functioning as a sensor-kinase and HrpY as a response regulator. HrpYupregulateshrpS, which encodes a transcriptional enhancer. HrpS then activates hrpL, which encodes an alternate sigma factor that recognizes "hrp boxes". All of the regulatory genes are essential for pathogenicity, except HrpX, which appears only to be required for induction of the HR in tobacco by Es. In elucidating this regulatory pathway in both species, we made a number of significant new discoveries. HrpX is unusual for a sensor-kinase because it is cytoplasmic and contains PAS domains, which may sense the redox state of the bacterium. In Es, a novel methyl-accepting protein may function upstream of hrpY and repress hrp gene expression in planta. The esaIR quorum sensing system in Es represses hrp gene expression in Es in response to cell-density. We have discovered six new type III effector proteins in these species, one of which (DspE in Ehg and WtsE in Es) is common to both pathogens. In addition, Es wtsG, which is a homolog of an avrPpiB from P. syringae pv. pisi, and an Ehg ORF, which is a homolog of P. syringae pv. phaseolicola AvrPphD, were both demonstrated to encode virulence proteins. Two plasmidborne, Ehg Hop proteins, HsvG and PthG, are required for infection of gypsophilia, but interestingly, PthG also acts as an Avr elicitor in beets. Using a calmodulin-dependent adenylate cyclase (cyaA) reporter gene, we were successful in demonstrating that an HsvG-CyaA fusion protein can be transferred into human HeLa cells by the type-III system of enteropathogenic E. coli. This is a highly significant accomplishment because it is the first direct demonstration that an effector protein from a plant pathogenic bacterium is capable of being translocated into a eukaryotic cell by a type-III secretion system. Ehg is considered a limiting factor in Gypsophila production in Israel and Stewart’s Wilt is a serious disease in the Eastern and North Central USA, especially on sweet corn in epidemic years. We believe that our basic research on the characterization of type III virulence effectors should enable future identification of their receptors in plant cells. This may lead to novel approaches for genetically engineering resistant plants by modifying their receptors or inactivating effectors and thus blocking the induction of the susceptible response. Alternatively, hrp gene regulation might also provide a target for plant produced compounds that interfere with recognition of the host by the pathogen. Such strategies would be broadly applicable to a wide range of serious bacterial diseases on many crops throughout the USA and Israel.
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Funkenstein, Bruria, and Cunming Duan. GH-IGF Axis in Sparus aurata: Possible Applications to Genetic Selection. United States Department of Agriculture, November 2000. http://dx.doi.org/10.32747/2000.7580665.bard.
Full textAbstract:
Many factors affect growth rate in fish: environmental, nutritional, genetics and endogenous (physiological) factors. Endogenous control of growth is very complex and many hormone systems are involved. Nevertheless, it is well accepted that growth hormone (GH) plays a major role in stimulating somatic growth. Although it is now clear that most, if not all, components of the GH-IGF axis exist in fish, we are still far from understanding how fish grow. In our project we used as the experimental system a marine fish, the gilthead sea bream (Sparus aurata), which inhabits lagoons along the Mediterranean and Atlantic coasts of Europe, and represents one of the most important fish species used in the mariculture industry in the Mediterranean region, including Israel. Production of Sparus is rapidly growing, however, in order for this production to stay competitive, the farming of this fish species has to intensify and become more efficient. One drawback, still, in Sparus extensive culture is that it grows relatively slow. In addition, it is now clear that growth and reproduction are physiological interrelated processes that affect each other. In particular sexual maturation (puberty) is known to be closely related to growth rate in fish as it is in mammals, indicating interactions between the somatotropic and gonadotropic axes. The goal of our project was to try to identify the rate-limiting components(s) in Sparus aurata GH-IGF system which might explain its slow growth by studying the ontogeny of growth-related genes: GH, GH receptor, IGF-I, IGF-II, IGF receptor, IGF-binding proteins (IGFBPs) and Pit-1 during early stages of development of Sparus aurata larvae from slow and fast growing lines. Our project was a continuation of a previous BARD project and could be divided into five major parts: i) obtaining additional tools to those obtained in the previous project that are necessary to carry out the developmental study; ii) the developmental expression of growth-related genes and their cellular localization; iii) tissue-specific expression and effect of GH on expression of growth-related genes; iv) possible relationship between GH gene structure, growth rate and genetic selection; v) the possible role of the IGF system in gonadal development. The major findings of our research can be summarized as follows: 1) The cDNAs (complete or partial) coding for Sparus IGFBP-2, GH receptor and Pit-1 were cloned. Sequence comparison reveals that the primary structure of IGFBP-2 protein is 43-49% identical to that of zebrafish and other vertebrates. Intensive efforts resulted in cloning a fragment of 138 nucleotides, coding for 46 amino acids in the proximal end of the intracellular domain of GH receptor. This is the first fish GH receptor cDNA that had been cloned to date. The cloned fragment will enable us to complete the GH - receptor cloning. 2) IGF-I, IGF-II, IGFBP-2, and IGF receptor transcripts were detected by RT-PCR method throughout development in unfertilized eggs, embryos, and larvae suggesting that these mRNAs are products of both the maternal and the embryonic genomes. Preliminary RT-PCR analysis suggest that GH receptor transcript is present in post-hatching larvae already on day 1. 3) IGF-1R transcripts were detected in all tissues tested by RT-PCR with highest levels in gill cartilage, skin, kidney, heart, pyloric caeca, and brain. Northern blot analysis detected IGF receptor only in gonads, brain and gill cartilage but not in muscle; GH increased slightly brain and gill cartilage IGF-1R mRNA levels. 4) IGFBP-2 transcript were detected only in liver and gonads, when analyzed by Northern blots; RT-PCR analysis revealed expression in all tissues studied, with the highest levels found in liver, skin, gonad and pyloric caeca. 5) Expression of IGF-I, IGF-II, IGF-1R and IGFBP-2 was analyzed during gonadal development. High levels of IGF-I and IGFBP-2 expression were found in bisexual young gonads, which decreased during gonadal development. Regardless of maturational stage, IGF-II levels were higher than those of IGF-L 6) The GH gene was cloned and its structure was characterized. It contains minisatellites of tandem repeats in the first and third introns that result in high level of genetic polymorphism. 7) Analysis of the presence of IGF-I and two types of IGF receptor by immunohistochemistry revealed tissue- and stage-specific expression during larval development. Immunohistochemistry also showed that IGF-I and its receptors are present in both testicular and ovarian cells. Although at this stage we are not able to pinpoint which is the rate-limiting step causing the slow growth of Sparus aurata, our project (together with the previous BARD) yielded a great number of experimental tools both DNA probes and antibodies that will enable further studies on the factors regulating growth in Sparus aurata. Our expression studies and cellular localization shed new light on the tissue and developmental expression of growth-related genes in fish.
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Yaron, Zvi, Martin P. Schreibman, Abigail Elizur, and Yonathan Zohar. Advancing Puberty in the Black Carp (Mylopharyngodon Piceus) and the Striped Bass (Morone Saxatilis). United States Department of Agriculture, August 1993. http://dx.doi.org/10.32747/1993.7568102.bard.
Full textAbstract:
The black carp (bc)GtH IIb cDNA was amplified and isolated, cloned and sequenced. Comparison of the bcGtH IIb deduced a.a. sequence with that of GtH IIb from other teleosts revealed high homology to cyprinid species and a lower homology to salmonid or perciform fish. The gene coding for the GtH IIb was isolated and sequenced. Three bc recombinant phages which hybridized to the goldfish GtH Ib cDNA probe were isolated and are currently being characterized. The region coding for the mature GtH IIb was expressed in a bacterial expression vector resulting in the production of a recombinant protein. In vitro folding resulted in a protein only 1.3% of which displaced the native common carp GtH II in a RIA. Therefore, the common carp GtH RIA was utilized for the physiological studies at the current phase of the project. Two non-functional sites were identified along the brain-pituitary gonadal axis in the immature black carp. The pituitary is refractory to GnRH stimulation due to a block proximal to the activation of PKA and PKC probably at the level of GnRH receptors. The gonads, although capable of producing steroids, are refractory to gonadotropic stimulation but do respond to cAMP antagonists, indicating a block at the GtH receptor level. Attempts to advance puberty in 2 and 3 y old black carp showed that testosterone (T) stimulates GtH synthesis in the pituitary and increases its sensitivity to GnRh. A 2 month treatment combining T+GnRH increased the circulating GFtH level in 3 y old fish. Addition of domperidone to such a treatment facilitated both the accumulation of GtH in the pituitary and its response to GnRH. The cDNA of striped bass GtH a, Ib and IIb subunits were amplified, isolated, cloned and sequenced, and their deduced a.a. sequences were compared with those of other teleosts. A ribonuclease protection assay was developed for a sensitive and simultaneous determination of all GtH subunits, and of b-actin mRNAs of the striped bass. GnRH stimulated dramatically the expression of the a and GtH IIb subunits but the level of GtH Ib mRNA increased only moderately. These findings suggest that GtH-II, considered in salmonids to be involved only in final stages of gametogenesis, can be induced by GnRH to a higher extent than GtH-I in juvenile striped bass. The native GtH II of the striped bass was isolated and purified, and an ELISA for its determination was developed. The production of all recombinant striped bass GtH subunits is in progress using the insect cell (Sf9) culture and the BAC-TO-BAC baculovirus expression system. A recombinant GtH IIb subunit has been produced already, and its similarity to the native subunit was confirmed. The yield of the recombinant glycoprotein can reach 3.5 mg/ml after 3 days culture. All male striped bass reach puberty after 3 y. However, precocious puberty was discovered in 1 and 2 y old males. Females become vitellogenic during their 4th year. In immature 2 y old females, T treatment elevates the pituitary GtH II content while GnRH only potentiates the effect. However, in males GnRH and not T affects GtH accumulation in the pituitary. Neither GnRH, nor T treatment resulted in gonadal growth in 2 y old striped bass, indicating that either the accumulated GtH II was not released, or if released, the gonads were refractory to GtH stimulation, similar to the situation in the immature black carp. In 3 y old female striped bass, 150 day GnRHa treatment resulted in an increase in GSI, while T treatment, with or without GnRHa, resulted in a decrease in oocyte diameter, similar to the effect seen in the black carp. Further attempts to advance puberty in both fish species should take into account the positive effect of T on pituitary GtH and its negative effect of ovarian growth.
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Mosquna, Assaf, and Sean Cutler. Systematic analyses of the roles of Solanum Lycopersicum ABA receptors in environmental stress and development. United States Department of Agriculture, January 2016. http://dx.doi.org/10.32747/2016.7604266.bard.
Full textAbstract:
Drought and other abiotic stresses have major negative effects on agricultural productivity. The plant hormone abscisic acid (ABA) regulates many responses to environmental stresses and can be used to improve crop performance under stress. ABA levels rise in response to diverse abiotic stresses to coordinate physiological and metabolic responses that help plants survive stressful environments. In all land plants, ABA receptors are responsible for initiating a signaling cascade that leads to stomata closure, growth arrest and large-scale changes in transcript levels required for stress tolerance. We wanted to test the meaning of root derived ABA signaling in drying soil on water balance. To this end we generated transgenic tomato lines in which ABA signaling is initiated by a synthetic agonist- mandipropamid. Initial study using a Series of grafting experiments indicate that that root ABA signaling has no effect on the immediate regulation of stomata aperture. Once concluded, these experiments will enable us to systematically dissect the physiological role of root-shoot interaction in maintaining the water balance in plants and provide new tools for targeted improvement of abiotic stress tolerance in crop plants.
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Eshel, Amram, Jonathan P. Lynch, and Kathleen M. Brown. Physiological Regulation of Root System Architecture: The Role of Ethylene and Phosphorus. United States Department of Agriculture, December 2001. http://dx.doi.org/10.32747/2001.7585195.bard.
Full textAbstract:
Specific Objectives and Related Results: 1) Determine the effect of phosphorus availability on ethylene production by roots. Test the hypothesis that phosphorus availability regulates ethylene production Clear differences were found between the two plants that were studied. In beans ethylene production is affected by P nutrition, tissue type, and stage of development. There are genotypic differences in the rate of ethylene production by various root types and in the differential in ethylene production when P treatments are compared. The acceleration in ethylene production with P deficiency increases with time. These findings support the hypothesis that ethylene production may be enhanced by phosphorus deficiency, and that the degree of enhancement varies with genotype. In tomatoes the low-P level did not enhance significantly ethylene production by the roots. Wildtype cultivars and ethylene insensitive mutants behaved similarly in that respect. 2) Characterize the effects of phosphorus availability and ethylene on the architecture of whole root systems. Test the hypothesis that both ethylene and low phosphorus availability modify root architecture. In common bean, the basal roots give rise to a major fraction of the whole root system. Unlike other laterals these roots respond to gravitropic stimulation. Their growth angle determines the proportion of the root length in the shallow layers of the soil. A correlation between ethylene production and basal root angle was found in shallow rooted but not deep-rooted genotypes, indicating that acceleration of ethylene synthesis may account for the change in basal root angle in genotypes demonstrating a plastic response to P availability. Short-time gravitropic response of the tap roots of young bean seedlings was not affected by P level in the nutrient solution. Low phosphorus specifically increases root hair length and root hair density in Arabidopsis. We tested 7 different mutants in ethylene perception and response and in each case, the response to low P was lower than that of the wild-type. The extent of reduction in P response varied among the mutants, but every mutant retained some responsiveness to changes in P concentration. The increase in root hair density was due to the increase in the number of trichoblast cell files under low P and was not mediated by ethylene. Low P did not increase the number of root hairs forming from atrichoblasts. This is in contrast to ethylene treatment, which increased the number of root hairs partly by causing root hairs to form on atrichoblasts. 3) Assess the adaptive value of root architectural plasticity in response to phosphorus availability. A simulation study indicated that genetic variation for root architecture in common bean may be related to adaptation to diverse competitive environments. The fractal dimension of tomato root system was directly correlated with P level.
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Mevarech, Moshe, Jeremy Bruenn, and Yigal Koltin. Virus Encoded Toxin of the Corn Smut Ustilago Maydis - Isolation of Receptors and Mapping Functional Domains. United States Department of Agriculture, September 1995. http://dx.doi.org/10.32747/1995.7613022.bard.
Full textAbstract:
Ustilago maydis is a fungal pathogen of maize. Some strains of U. maydis encode secreted polypeptide toxins capable of killing other susceptible strains of U. maydis. Resistance to the toxins is conferred by recessive nuclear genes. The toxins are encoded by genomic segments of resident double-strande RNA viruses. The best characterized toxin, KP6, is composed of two polypeptides, a and b, which are not covalently linked. It is encoded by P6M2 dsRNA, which has been cloned, sequenced and expressed in a variety of systems. In this study we have shown that the toxin acts on the membranes of sensitive cells and that both polypeptides are required for toxin activity. The toxin has been shown to function by creating new pores in the cell membrane and disrupting ion fluxes. The experiments performed on artificial phospholipid bilayers indicated that KP6 forms large voltage-independent, cation-selective channels. Experiments leading to the resolution of structure-function relationship of the toxin by in vitro analysis have been initiated. During the course of this research the collaboration also yielded X-ray diffracion data of the crystallized a polypeptide. The effect of the toxin on the pathogen has been shown to be receptor-mediated. A potential receptor protein, identified in membrane fractions of sensitive cells, was subjected to tryptic hydrolysis followed by amino-acid analysis. The peptides obtained were used to isolate a cDNA fragment by reverse PCR, which showed 30% sequence homology to the human HLA protein. Analysis of other toxins secreted by U. maydis, KP1 and KP4, have demonstrated that, unlike KP6, they are composed of a single polypeptide. Finally, KP6 has been expressed in transgenic tobacco plants, indicating that accurate processing by Kex2p-like activity occurs in plants as well. Using tobacco as a model system, we determined that active antifungal toxins can be synthesized and targeted to the outside of transgenic plant cells. If this methodology can be applied to other agronomically crop species, then U. maydis toxins may provide a novel means for biological control of pathogenic fungi.
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Spencer, Thomas E., Elisha Gootwine, Arieh Gertler, and Fuller W. Bazer. Placental lactogen enhances production efficiency in sheep. United States Department of Agriculture, December 2005. http://dx.doi.org/10.32747/2005.7586543.bard.
Full textAbstract:
The key objectives of this BARD project were to: (1) study long-term effects of immunization of prepubertal ewes against recombinant ovine placental lactogen (roPL) on subsequent birth weights of their lambs and their milk production; (2) optimize the anti-roPL immunization protocol using adjuvant preparations acceptable to producers and regulatory agencies; and (3) determine the physiological mechanism(s) whereby immunization against oPL increases fetal growth and development and mammogenesis. These objectives were based on key findings from a previous BARD project that: (a) immunization of ewes against roPL increased lamb birth weight and ewe milk production during lactation; (b) roPL and recombinant ovine growth hormone (roGH) increased the proliferation and differentiated function of endometrial glands that, in turn, would enhance uterine secretions necessary for fetal and placental growth; and (c) exogenous roPL and roGH stimulated mammogenesis and milk production during lactation. The BARD projects address central problems in sheep production, including reproductive failure due to embryonic/fetal mortality, low birth weight of lambs especially in prolific breeds, and reduced milk yields which affect neonatal survival. The sheep placenta secretes both lactogenic (oPL) and somatogenic (oGH) hormones. The receptors for those hormones are present in the fetus and placenta as well as maternal uterus, and mammary gland. Our research has focused on determining the biological role of these placental hormones in development and differentiation of the uterus during gestation and the mammary gland during pregnancy and lactation. Studies conducted in the current BARD project indicated that the effects of anti-roPL immunization were variable in ewes and that commercially available and widely acceptable adjuvant preparations were not effective to produce high anti-roPL titers in pre-pubertal ewes. In the non-prolific Rambouillet ewe in Texas and in the Awassi and the Assaf in Israel, anti-roPL immunization increased lamb birth weight; however, the magnitude of this effect and the inherent variability precluded our ability to determine the physiological mechanism of how the immunization increases fetal growth. Collectively, our findings suggest that anti-roPL immunization is not currently feasible as an easy and efficacious tool for the producer to increase flock reproductive and production efficiency. The variability in response of individual ewes to anti-roPL immunization likely includes modifying the recombinant hormone and the type of adjuvant used for the immunization. In particular, the oPL may need to be modified to ensure maximum antigenicity in a broad range of breed types. Nonetheless, the investigators continue to collaborate on identifying fundamental mechanisms that can be improved by genetics or management to enhance the efficiency of uteroplacental function and, in turn, fetal growth and development. High prolificacy is a desirable trait in intensive sheep production systems. One of the main limitations of using prolific breeds of sheep is that increased litter size is associated with low birth weights and increased mortality of lambs. Further, low birth weight is associated with an increased propensity for adult diseases and decreased production efficiency. Indeed, our recent studies find that the birth weights of lambs born in large litters can be improved by both genetics and management. Future cooperative research will continue to focus on reproductive efficiency of sheep that have broader implications for improving production efficiency in all types of ruminant livestock.