Journal articles on the topic 'Growing oocyte'
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1
Lodde, Valentina, Rodrigo Garcia Barros, Priscila Chediek Dall’Acqua, Cecilia Dieci, Claude Robert, Alexandre Bastien, Marc-André Sirard, Federica Franciosi, and Alberto Maria Luciano. "Zinc supports transcription and improves meiotic competence of growing bovine oocytes." Reproduction 159, no. 6 (May 2020): 679–91. http://dx.doi.org/10.1530/rep-19-0398.
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In the last years, many studies focused on the understanding of the possible role of zinc in the control of mammalian oogenesis, mainly on oocyte maturation and fertilization. However, little is known about the role of zinc at earlier stages, when the growing oocyte is actively transcribing molecules that will regulate and sustain subsequent stages of oocyte and embryonic development. In this study, we used the bovine model to gain insights into the possible involvement of zinc in oocyte development. We first mined the EmbryoGENE transcriptomic dataset, which revealed that several zinc transporters and methallothionein are impacted by physiological conditions throughout the final phase of oocyte growth and differentiation. We then observed that zinc supplementation during in vitro culture of growing oocytes is beneficial to the acquisition of meiotic competence when subsequently subjected to standard in vitro maturation. Furthermore, we tested the hypothesis that zinc supplementation might support transcription in growing oocytes. This hypothesis was indirectly confirmed by the experimental evidence that the content of labile zinc in the oocyte decreases when a major drop in transcription occurs in vivo. Accordingly, we observed that zinc sequestration with a zinc chelator rapidly reduced global transcription in growing oocytes, which was reversed by zinc supplementation in the culture medium. Finally, zinc supplementation impacted the chromatin state by reducing the level of global DNA methylation, which is consistent with the increased transcription. In conclusion, our study suggests that altering zinc availability by culture-medium supplementation supports global transcription, ultimately enhancing meiotic competence.
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Guo, Jing, Teng Zhang, Yueshuai Guo, Tao Sun, Hui Li, Xiaoyun Zhang, Hong Yin, et al. "Oocyte stage-specific effects of MTOR determine granulosa cell fate and oocyte quality in mice." Proceedings of the National Academy of Sciences 115, no. 23 (May 21, 2018): E5326—E5333. http://dx.doi.org/10.1073/pnas.1800352115.
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MTOR (mechanistic target of rapamycin) is a widely recognized integrator of signals and pathways key for cellular metabolism, proliferation, and differentiation. Here we show that conditional knockout (cKO) of Mtor in either primordial or growing oocytes caused infertility but differentially affected oocyte quality, granulosa cell fate, and follicular development. cKO of Mtor in nongrowing primordial oocytes caused defective follicular development leading to progressive degeneration of oocytes and loss of granulosa cell identity coincident with the acquisition of immature Sertoli cell-like characteristics. Although Mtor was deleted at the primordial oocyte stage, DNA damage accumulated in oocytes during their later growth, and there was a marked alteration of the transcriptome in the few oocytes that achieved the fully grown stage. Although oocyte quality and fertility were also compromised when Mtor was deleted after oocytes had begun to grow, these occurred without overtly affecting folliculogenesis or the oocyte transcriptome. Nevertheless, there was a significant change in a cohort of proteins in mature oocytes. In particular, down-regulation of PRC1 (protein regulator of cytokinesis 1) impaired completion of the first meiotic division. Therefore, MTOR-dependent pathways in primordial or growing oocytes differentially affected downstream processes including follicular development, sex-specific identity of early granulosa cells, maintenance of oocyte genome integrity, oocyte gene expression, meiosis, and preimplantation developmental competence.
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Kere, Michel, Pan-Chen Liu, Yuh-Kun Chen, Pei-Chi Chao, Li-Kuang Tsai, Ting-Yu Yeh, Chawalit Siriboon, et al. "Ultrastructural Characterization of Porcine Growing and In Vitro Matured Oocytes." Animals 10, no. 4 (April 11, 2020): 664. http://dx.doi.org/10.3390/ani10040664.
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This study aimed to investigate ultrastructural changes of growing porcine oocytes and in vitro maturated oocytes. Light microscopy was used to characterize and localize the primordial, primary, secondary, and tertiary follicles. During oocyte growth and maturation, the morphology of mitochondria was roundish or ovoid in shape depending on the differentiation state, whereas their mean diameters oscillated between 0.5 and 0.7 µm, respectively, from primary and secondary follicles. Hooded mitochondria were found in the growing oocytes of the tertiary follicles. In addition to the pleomorphism of mitochondria, changes in the appearance of lipid droplets were also observed, along with the alignment of a single layer of cortical granules beneath the oolemma. In conclusion, our study is apparently the first report to portray morphological alterations of mitochondria that possess the hooded structure during the growth phase of porcine oocytes. The spatiotemporal and intrinsic changes during oogenesis/folliculogenesis are phenomena at the ultrastructural or subcellular level of porcine oocytes, highlighting an in-depth understanding of oocyte biology and impetus for future studies on practical mitochondrion replacement therapies for oocytes.
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Komorowski, Sebastian, Barbara Baranowska, and Marek Maleszewski. "CD9 protein appears on growing mouse oocytes at the time when they develop the ability to fuse with spermatozoa." Zygote 14, no. 2 (May 2006): 119–23. http://dx.doi.org/10.1017/s0967199405003497.
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SummaryCD9 is a member of the tetraspanin superfamily proteins and is the only protein on the mouse oocyte which is known to be indispensable in sperm–egg fusion. Here, using indirect immunofluorescence we show that CD9 appears on the oolemma during the early stages of the growth of the oocyte, when it measures 13–22 μm in diameter. When the oocyte reaches a diameter of 17–22 μm, the density of CD9 in its oolemma is similar to the density of this protein in the cell membrane of the fully grown secondary oocyte. The appearance of CD9 in growing oocytes correlates with the previously reported time of the acquisition of fusibility between the spermatozoon and the egg. Accordingly we propose that during oogenesis the development of the ability of the oolemma to fuse with sperm may be regulated by synthesis of CD9 by the oocyte.
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Stanislavovich, Tatiana, T. I. KUZMINA, and Aleksey Molchanov. "Assessment of the destructive processes of chromatin of granulosa cells and functional status of oocyte in bovine ovarian follicles." Agrarian Bulletin of the 191, no. 12 (December 9, 2019): 60–64. http://dx.doi.org/10.32417/1997-4868-2019-191-12-60-64.
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Abstract. Currently, there is the possibility of more detailed studies to the study of oocytes and somatic cells (granulosa cells). The possibility to develop successful models of maturation of female gametes defines the possibility to improve existing methods for the selection of donor eggs and the search for new donor eggs. Oocyte maturation in vivo occurs with the participation of structural follicle elements and follicular fluid [3, 4, 6]. Granulosa cells are widely used in bovine oocyte maturation systems and used in cloning and transgenesis technologies [8, 13]. Purpose of this study: to perform destructive changes granulosa cells in ovarian follicles of bovines (Ø 3–5 mm),which contain growing(ВСВ–) or completed the growth phase of oocytes (ВСВ+). Methods: Functional testing of oocytes wascarried out using the vital dye BCB (brillant cresyl blue – diamond crystal blue) [10]. Viability indices in granulosa cells isolated from follicles that contain oocyte s that grow or complete the growth phase were determined by flow cytometry. The result. It was found, that cellsof granulosa from cow follicles are characterized by different indicators of apoptosis levels depending on the status of oocytes (completed growth and growing) isolated from these follicles. The proportion of apoptotic granulosa cells in bovine follicles of containing oocytes that completed the growth phase, exceeded that in follicles containing growing oocytes by 11 % (29 % vs. 18 %, c:dP < 0.05). The scientific novelty: The data obtained using flow cytometry, allow us to evaluate the level of apoptosis in granulosa cells of bovine ovarian follicle as indicator of functional status of developing oocytes (growing or completed growth phases). This indicator can be used in prognosis of competencies for maturation of bovine oocytes.
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Sohel, M. M. H., D. Salilew-Wondim, M. Hölker, F. Rings, K. Schellander, and D. Tesfaye. "207 CIRCULATORY microRNA SIGNATURES IN FOLLICULAR FLUID IN RELATION TO THE GROWTH STATUS OF BOVINE OOCYTES." Reproduction, Fertility and Development 25, no. 1 (2013): 251. http://dx.doi.org/10.1071/rdv25n1ab207.
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Cell-to-cell communication within the follicle involves many signalling molecules, and this process is believed to be mediated by secretion and uptake of exosomes that contained several bioactive molecules including circulatory microRNAs (miRNA). The present study was conducted to investigate the circulating miRNA expression pattern in exosome and nonexosomal portion of follicular fluid (FF) in follicles with fully grown or growing oocytes. For this, the FF and cumulus–oocyte complexes (COC) were retrieved from 5- to 8-mm individual follicles from ovaries obtained from local abattoir. Then, the oocytes were subjected to brilliant cresyl blue (BCB) staining and classified as BCB+ (fully grown oocytes) and BCB– (growing oocytes). Accordingly, the corresponding FF was classified as BCB+ and BCB– based on their oocyte source. Following this, the exosomes were trapped from each FF categories using ExoQuick™ (SBI System Bioscience). Thus, total RNA was isolated from exosomal and nonexosomal portion of the FF using miRNeasy mini kit (Qiagen) and subjected to miRNA expression studies. The human miRCURY LNA™ Universal RT miRNA PCR array system (Exiqon) was used for miRNA expression profiling. Data analysis was performed using a comparative threshold cycle (ΔCT) method. The results revealed that 26 miRNAs were found to be differentially expressed (fold change ≥2 and P < 0.05) between the exosomal portion of FF from fully grown and growing oocyte groups. Among these, 17 miRNA including miR-608, miR-654-5p, miR-640, miR-582-5p, miR-449b, miR-155 were upregulated and 9 miRNA including miR-373, miR-526b*, miR-33a*, miR-30b, miR-29a* were downregulated in exosomal portion of FF of growing oocyte groups. The ingenuity pathway analysis of genes predicted to be targeted by those miRNAs were found to be involved in WNT/β catenine, purine metabolism, protein ubiquitination, and cAMP-mediated signalling pathways. Similarly, 36 miRNA were differentially expressed between the non-exosomal portion of FF of fully grown and growing oocytes. From those, 27 miRNA including let-7i*, miR-328, miR-223, miR-19b-1*, miR-423-5p, miR-29c, miR-659 were upregulated, whereas the expression level of 9 miRNA including miR-381, miR-18a*, miR-30e*, miR-934, and miR-302c was downregulated in the nonexosomal portion of FF of growing oocyte groups. In addition, the ingenuity pathway analysis indicated that the genes predicted to be targeted by these miRNA were found to be involved in NRF2-mediated oxidative stress response, tight junction signalling, and protein ubiquitination pathways. In conclusion, this study detected the presence of exosome or non-exosome-mediated circulation of miRNA in the bovine follicular fluid and oocyte growth-dependent variation of circulatory miRNA in the follicular environment.
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Kovo, Michal, Miri Kandli-Cohen, Miri Ben-Haim, Dalia Galiani, Dan W. Carr, and Nava Dekel. "An active protein kinase A (PKA) is involved in meiotic arrest of rat growing oocytes." Reproduction 132, no. 1 (July 2006): 33–43. http://dx.doi.org/10.1530/rep.1.00824.
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Reinitiation of meiosis in meiotically competent, fully grown mammalian oocytes is governed by a fall in intraoocyte cAMP concentrations and the subsequent inactivation of protein kinase A (PKA). A similar reduction in intraoocyte cAMP concentrations in growing, meiotically incompetent rat oocytes not leading to resumption of meiosis, questions the involvement of PKA in the regulation of meiosis at this early stage of oocyte development. We examined the possibility of whether PKA activity maintains growing oocytes in meiotic arrest and further explored the mode of activation of PKA under conditions of relatively low cAMP concentrations. Our experiment demonstrated that inactivation of PKA stimulates growing rat oocytes to resume meiosis, and elevates the activity of their maturation-promoting factor (MPF). We also found that the expressions of type I and type II regulatory subunits (RI and RII) of PKA are higher in growing and fully grown oocytes, respectively. In addition, we revealed that the common 1:1 ratio between the regulatory (R) and catalytic (C) subunits of PKA is apparently not abrogated and, in accordance PKA activity in growing oocyte - cell extract is fully dependent on cAMP. Finally, we identified in growing oocytes, the A kinase anchoring protein (AKAP) 140, which was previously depicted in fully grown oocytes. We conclude that an active PKA prevents growing oocytes from resuming meiosis. Our findings further suggest that relatively high abundance of the PKAI isoform and/or its subcellular compartmentalization, through interaction with AKAP140, could possibly account for the high basal PKA activity at relatively low intraoocyte cAMP concentrations.
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Taketsuru, Hiroaki, Yuji Hirao, Naoki Takenouchi, Kosuke Iga, and Takashi Miyano. "Effect of androstenedione on the growth and meiotic competence of bovine oocytes from early antral follicles." Zygote 20, no. 4 (November 9, 2011): 407–15. http://dx.doi.org/10.1017/s0967199411000268.
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SummaryMedium that contains 17β-estradiol has been reported to support in vitro growth of bovine oocytes, isolated from early antral follicles, until the final stage. The aim of this study was to determine the effects of androstenedione in medium on such growing bovine oocytes. Oocyte–granulosa cell complexes were collected from early antral follicles and cultured for 14 days in medium supplemented with 17β-estradiol (0, 10 and 100 ng/ml) or androstenedione (0, 10 and 100 ng/ml). The mean diameter of oocytes measured after seeding on the culture substrate was 96.9 μm (n = 191). Either steroid was necessary for maintainance of the organization of oocyte–granulosa cell complexes over the 14-day culture period. In the 17β-estradiol- or the androstenedione-supplemented medium about 80% or 65%, respectively, of viable oocytes were recovered. In both groups the increase in oocyte size was significant after 14 days. The in vitro grown oocytes were cultured for a further 22–24 h for oocyte maturation; 13% and 30% of oocytes grown in the 10 and 100 ng/ml 17β-estradiol-supplemented medium reached metaphase II, respectively; more than 64% of oocytes grown in the androstenedione-supplemented medium matured to metaphase II. These results show that androstenedione, as 17β-estradiol, can maintain the viability of bovine oocyte–granulosa cell complexes and support the growth of oocytes, and that androstenedione promotes the acquisition of oocyte meiotic competence efficiently at a low dose.
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Marteil, G., R. D'Inca, A. Pascal, N. Guitton, T. Midtun, A. Goksoyr, L. Richard-Parpaillon, and J. Z. Kubiak. "EP45 accumulates in growing Xenopus laevis oocytes and has oocyte-maturation-enhancing activity involved in oocyte quality." Journal of Cell Science 123, no. 10 (April 27, 2010): 1805–13. http://dx.doi.org/10.1242/jcs.063305.
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Senbon, Shoichiro, and Takashi Miyano. "Bovine oocytes in early antral follicles grow in serum-free media: effect of hypoxanthine on follicular morphology and oocyte growth." Zygote 10, no. 4 (October 31, 2002): 301–9. http://dx.doi.org/10.1017/s0967199402004033.
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Some culture systems have been shown to support oocyte growth in mice, although there has been little success in applying these systems to other species. In the present study, we compared three culture conditions for growing bovine oocytes and examined the effect of hypoxanthine on oocyte growth. In the first experiment, early antral follicles, 0.4-0.7 mm in diameter were collected, and oocyte-cumulus-granulosa cell complexes (OCGs) and oocyte-cumulus cell complexes (OCs) were dissected from the follicles. Follicles (Fs), OCGs and OCs were embedded in collagen gels and cultured in serum-supplemented medium for 16 days. In the Fs, OCGs and OCs cultured in hypoxanthine-free medium, 21%, 9% and 4% of the oocytes showed normal morphology, respectively, and hypoxanthine (4 mM) increased the percentages in all the groups (Fs, 37%; OCGs, 29%; OCs, 10%). In the second experiment, Fs were cultured in serum-free medium with or without hypoxanthine for 16 days. Histological examination demonstrated that hypoxanthine maintained the integrity of the follicular basement membrane. After a growth culture, 91% of the oocytes showed normal morphology, and 87% of the oocytes were at the germinal vesicle stage in serum-free, hypoxanthine-supplemented medium. The mean diameters of the oocytes were significantly larger (117.6 ± 5.7 mm) than they were in the other groups and than they had been before the culture (approximately 95 mm). After a subsequent maturation culture of the oocytes, 85% underwent germinal vesicle breakdown and 23% reached the second metaphase. These results demonstrate that growing bovine oocytes from early antral follicles grow efficiently in follicles cultured in serum-free, hypoxanthine-supplemented medium and acquire meiotic competence.
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Schickler, M., S. A. Lira, R. A. Kinloch, and P. M. Wassarman. "A mouse oocyte-specific protein that binds to a region of mZP3 promoter responsible for oocyte-specific mZP3 gene expression." Molecular and Cellular Biology 12, no. 1 (January 1992): 120–27. http://dx.doi.org/10.1128/mcb.12.1.120-127.1992.
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The gene encoding mZP3, the mouse sperm receptor, is expressed exclusively in growing oocytes during oogenesis. To investigate the molecular basis of oocyte-specific mZP3 gene expression, we generated several lines of mice harboring a transgene that contains 470 bp of mZP3 gene 5'-flanking sequence (nucleotides -470 to +10) fused to the firefly luciferase gene coding region. Three of four expressing transgenic lines exhibited luciferase activity only in growing oocytes, suggesting that the 470-bp fragment is sufficient to direct Iocyte-specific expression of the luciferase gene. Results of DNase I footprinting and gel mobility shift assays suggested the presence of an ovary-specific protein that binds to a small region (nucleotides-99 to -86) within the 470-bp fragment of the mZP3 promoter, with 5'-G(G/A)T(G/A)A-3' representing the minimal sequence required for binding. Southwestern (DNA-protein) gel blots revealed the presence of an oocyte-specific, approximately 60,000-Mr protein, called OSP-1, that binds to the minimal sequence. Changes in levels of OSP-1 during oogenesis and early cleavage are consistent with the pattern of mZP3 gene expression during these developmental stages in mice. Therefore, OSP-1 may be a mammalian oocyte-specific transcription factor involved in regulating oocyte-specific mZP3 gene expression.
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Schickler, M., S. A. Lira, R. A. Kinloch, and P. M. Wassarman. "A mouse oocyte-specific protein that binds to a region of mZP3 promoter responsible for oocyte-specific mZP3 gene expression." Molecular and Cellular Biology 12, no. 1 (January 1992): 120–27. http://dx.doi.org/10.1128/mcb.12.1.120.
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The gene encoding mZP3, the mouse sperm receptor, is expressed exclusively in growing oocytes during oogenesis. To investigate the molecular basis of oocyte-specific mZP3 gene expression, we generated several lines of mice harboring a transgene that contains 470 bp of mZP3 gene 5'-flanking sequence (nucleotides -470 to +10) fused to the firefly luciferase gene coding region. Three of four expressing transgenic lines exhibited luciferase activity only in growing oocytes, suggesting that the 470-bp fragment is sufficient to direct Iocyte-specific expression of the luciferase gene. Results of DNase I footprinting and gel mobility shift assays suggested the presence of an ovary-specific protein that binds to a small region (nucleotides-99 to -86) within the 470-bp fragment of the mZP3 promoter, with 5'-G(G/A)T(G/A)A-3' representing the minimal sequence required for binding. Southwestern (DNA-protein) gel blots revealed the presence of an oocyte-specific, approximately 60,000-Mr protein, called OSP-1, that binds to the minimal sequence. Changes in levels of OSP-1 during oogenesis and early cleavage are consistent with the pattern of mZP3 gene expression during these developmental stages in mice. Therefore, OSP-1 may be a mammalian oocyte-specific transcription factor involved in regulating oocyte-specific mZP3 gene expression.
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Hismayasari, I., S. Rahayu, and A. Marhendra. "Ovary maturation stages histology and follicles diameter of Melanotaenia boesemani rainbowfish ovary from district of North Ayamaru, Maybrat Regency, west Papua." Journal of Morphological Sciences 32, no. 03 (July 2015): 157–64. http://dx.doi.org/10.4322/jms.082914.
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Abstract Introduction: This research aim is to described ovary maturation stages histologically related with oocytes development in ovary of boesemani rainbowfish M. boesemani from North Ayamaru district, Maybrat Regency, West Papua. Materials and Methods: A histologycal analysis of ovari maturation stage (OMS) of the Boesemani rainbowfish Melanotaenia boesemani performed on 93 ovaries. Fresh ovaries were fixed in 10% Neutral Buffered Formalin (NBF) and embedded in paraffin. Section of about 5-6 pm thickness were cut and stained with Hematoxylin eosin (HE). Results: Histologycal analysis of rainbowfish M. boesemani ovaries based on oocyte development consist of 8 oocyte types not included atresia follicle i.e oogonia, early perinuclear oocyte, late perinuclear oocyte, cortical alveoli oocyte, early vitelogenic oocyte, mid-vitelogenic oocyte, late vitelogenic oocyte, and mature oocyte. The chorion and follicle layers begins to form at OMS II, keeps growing at OMS III, and was apparent at OMS IV. The chorion and follicle layers at OMS V ovaries were disintegrated. Conclusion: Based on ovary histology, oocyte proportion, and follicles diameter distribution can be concluded that the rainbowish M. boesemani classiied as multiple spawner.
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Zuccotti, M., R. Yanagimachi, and H. Yanagimachi. "The ability of hamster oolemma to fuse with spermatozoa: its acquisition during oogenesis and loss after fertilization." Development 112, no. 1 (May 1, 1991): 143–52. http://dx.doi.org/10.1242/dev.112.1.143.
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To determine when the growing hamster oocyte gains the ability to fuse with the spermatozoon, oocytes at various stages of development were collected from ovaries, and zona-pellucida-free oocytes were inseminated in vitro with acrosome-reacted spermatozoa. Very small primary oocytes were unable to fuse with spermatozoa. Oocytes first became competent to fuse with spermatozoa when they had grown to about 20 microns in diameter. The acquisition of fusibility coincided with the first appearance of zona pellucida material and oolemma microvilli. The fusibility of the oolemma increased as the oocyte grew, reaching a maximum when the oocyte reached the metaphase of the second meiosis. The fusibility of the oolemma was reduced drastically after fertilization, and was lost completely by the 8-cell stage. The appearance and subsequent disappearance of a putative fusion-mediating molecule in the oolemma is proposed. Since this molecule is fairly resistant to proteinase digestion, at least in the hamster, it could be a cryptic protein or a glycolipid.
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Liu, Lian, Singareddy Rajareddy, Pradeep Reddy, Krishna Jagarlamudi, Chun Du, Yan Shen, Yongzhi Guo, et al. "Phosphorylation and inactivation of glycogen synthase kinase-3 by soluble kit ligand in mouse oocytes during early follicular development." Journal of Molecular Endocrinology 38, no. 1 (January 2007): 137–46. http://dx.doi.org/10.1677/jme.1.02027.
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Communication between mammalian oocytes and their surrounding granulosa cells through the Kit–Kit ligand (KL, or stem cell factor, SCF) system has been shown to be crucial for follicular development. Our previous studies (Reddy et al. 2005, Liu et al. 2006) have indicated that the intra-oocyte KL–Kit–PI3 kinase (PI3K)–Akt–Foxo3a cascade may play an important role in follicular activation and early development. In the present study, using in situ hybridization and in vitro culture of growing oocytes from 8-day-old postnatal mice, we have demonstrated that another Akt substrate, glycogen synthase kinase-3 (GSK-3), is expressed in growing oocytes. Also, treatment of cultured mouse oocytes with soluble KL not only leads to increased Akt kinase activity in the oocytes, which can phosphorylate recombinant GSK-3 in vitro, but also leads to phosphorylation of oocyte GSK-3α and GSK-3β, which can result in the inactivation of GSK-3 function in oocytes. In addition, we have shown that the regulation of GSK-3α and GSK-3β in cultured oocytes by soluble KL is accomplished through PI3K, since the PI3K-specific inhibitor LY294002 completely abolished the KL-induced phosphorylation of GSK-3α and GSK-3β. Moreover, blockage of the Kit signaling pathway by a Kit function-blocking antibody, ACK2, resulted in reduced phosphorylation of GSK-3. Taken together, our data suggest that the cascade from granulosa cell-derived KL to Kit–PI3K–Akt–GSK-3 in oocytes may take part in regulation of oocyte growth and early ovarian follicular development.
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Leroy, J. L. M. R., D. Rizos, R. Sturmey, P. Bossaert, A. Gutierrez-Adan, V. Van Hoeck, S. Valckx, and P. E. J. Bols. "Intrafollicular conditions as a major link between maternal metabolism and oocyte quality: a focus on dairy cow fertility." Reproduction, Fertility and Development 24, no. 1 (2012): 1. http://dx.doi.org/10.1071/rd11901.
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Reduced oocyte and embryo quality are recognised as major factors in the problem of disappointing fertility in high producing dairy cows. This review aims to shed more light on the importance of the intrafollicular environment in the subfertility problem in dairy cows. Metabolic disturbances associated with negative energy balance (NEB) early postpartum are associated with ovarian dysfunction. Changes in the growth pattern of the ovarian follicle during a period of NEB can indirectly affect oocyte quality. Furthermore, a maternal metabolic disorder (linked with NEB or nutritionally induced) may alter the endocrine and biochemical composition of the follicular fluid, the micro-environment of the growing and maturing female gamete. The maturing oocyte is very sensitive to any perturbation in its direct environment and in vitro maturation models revealed that some of these metabolic changes reduce the oocyte’s developmental competence. Also, embryo quality is significantly reduced due to maturation in adverse conditions. Well balanced and timed oocyte metabolism and gene expression are crucial to safeguard an optimal oocyte development. In that perspective, metabolome and transcriptome parameters of the oocyte may serve to predict reproductive success rates. Finally, there is growing evidence that adverse conditions for oocyte growth and maturation may also jeopardise the health and performance of the offspring.
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Skinner, S. M., and B. S. Dunbar. "Localization of a carbohydrate antigen associated with growing oocytes and ovarian surface epithelium." Journal of Histochemistry & Cytochemistry 40, no. 7 (July 1992): 1031–36. http://dx.doi.org/10.1177/40.7.1607636.
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We used a monoclonal antibody (PS1) to a carbohydrate antigen to study the development of the oocyte and follicle during early stages of differentiation in several mammalian species. This antigen has been shown to localize within the cytoplasm of oocytes in primordial follicles as well as in growing oocytes. It is also localized within distinct layers of the zona pellucida (ZP) of developing follicles. Although this antibody was made against a specific ZP glycoprotein, the antigen also appears to be abundant in cells of the ovarian surface epithelium (OSE). The localization of this carbohydrate moiety has been observed in ovaries of rabbits of different ages as well as in the ovarian surface epithelium of other mammalian species including cat, cynomolgus monkey, baboon, and human. These studies demonstrate that there is an abundant carbohydrate antigenic determinant which is associated with both the mammalian oocyte and the ovarian surface epithelium but which is not apparent in other ovarian cell types or in non-ovarian secretory epithelium. This antibody probe should provide a valuable tool for studying the development and differentiation of the ovary, since this antigen is associated with two highly differentiated but distinct cell types.
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Wu, Di, and Jurrien Dean. "EXOSC10 sculpts the transcriptome during the growth-to-maturation transition in mouse oocytes." Nucleic Acids Research 48, no. 10 (April 20, 2020): 5349–65. http://dx.doi.org/10.1093/nar/gkaa249.
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Abstract Growing mammalian oocytes accumulate substantial amounts of RNA, most of which is degraded during subsequent meiotic maturation. The growth-to-maturation transition begins with germinal vesicle or nuclear envelope breakdown (GVBD) and is critical for oocyte quality and early development. The molecular machinery responsible for the oocyte transcriptome transition remains unclear. Here, we report that an exosome-associated RNase, EXOSC10, sculpts the transcriptome to facilitate the growth-to-maturation transition of mouse oocytes. We establish an oocyte-specific conditional knockout of Exosc10 in mice using CRISPR/Cas9 which results in female subfertility due to delayed GVBD. By performing multiple single oocyte RNA-seq, we document dysregulation of several types of RNA, and the mRNAs that encode proteins important for endomembrane trafficking and meiotic cell cycle. As expected, EXOSC10-depleted oocytes have impaired endomembrane components including endosomes, lysosomes, endoplasmic reticulum and Golgi. In addition, CDK1 fails to activate, possibly due to persistent WEE1 activity, which blocks lamina phosphorylation and disassembly. Moreover, we identified rRNA processing defects that cause higher percentage of developmentally incompetent oocytes after EXOSC10 depletion. Collectively, we propose that EXOSC10 promotes normal growth-to-maturation transition in mouse oocytes by sculpting the transcriptome to degrade RNAs encoding growth-phase factors and, thus, support the maturation phase of oogenesis.
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Gazdag, Emese, Aleksandar Rajkovic, Maria Elena Torres-Padilla, and Làszlò Tora. "Analysis of TATA-binding protein 2 (TBP2) and TBP expression suggests different roles for the two proteins in regulation of gene expression during oogenesis and early mouse development." Reproduction 134, no. 1 (July 2007): 51–62. http://dx.doi.org/10.1530/rep-06-0337.
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Gametogenesis, the process during which germ cells are generated is essential for reproduction. In mammals, maternal mRNA and proteins present in the oocyte are required to ensure the progression of development until the embryo activates its genome after fertilisation. It is well established that the oocyte synthesises these maternal factors during oocyte growth and then undergoes a quiescent transcriptional period that will be resumed only after fertilisation. However, the mechanisms that govern transcriptional regulation and subsequent silencing during oogenesis are not well understood. Here, we have examined the expression and localisation of the TATA-binding protein (TBP) and the related protein TBP2 (also called TRF3, TBP-related factor 3) during oogenesis and in early mouse embryos. We show that TBP is expressed in the oocytes at the beginning of folliculogenesis, but it is undetectable during further stages of oocyte development, and becomes abundant again only after fertilisation. In contrast to TBP, we found that TBP2 is highly expressed in growing oocytes during folliculogenesis, declines upon ovulation, and is almost undetectable after fertilisation by the two-cell stage. The mirroring localisation profile of TBP and TBP2 suggests different roles for the two proteins in establishing specialised programs of gene expression during oocyte development and in early mouse embryos. Analysis of mutant mouse ovaries in which oocyte-specific factors have been knocked-out suggests that TBP2 is a potential candidate for regulating transcriptional control of oogenesis. Moreover, our results obtained with oocytes lacking the oocyte-specific nuclear chaperone nucleoplasmin 2 suggest that TBP2 function may be related to non-condensed chromatin conformation.
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Rotoli, Deborah, Silvia Andone, Claudia Tortiglione, Andrea Manzi, Carla Malva, and Franco Graziani. "hold up Is Required for Establishment of Oocyte Positioning, Follicle Cell Fate and Egg Polarity and Cooperates with Egfr during Drosophila Oogenesis." Genetics 148, no. 2 (February 1, 1998): 767–73. http://dx.doi.org/10.1093/genetics/148.2.767.
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Abstract In Drosophila the posterior positioning of the oocyte within the germline cluster defines the initial asymmetry during oogenesis. From this early event, specification of both body axes is controlled through reciprocal signaling between germline and soma. Here it is shown that the mutation hold up (hup) affects oocyte positioning in the egg chamber, follicle cell fate and localization of different markers in the growing oocytes. This occurs not only in dicephalic egg chambers, but also in oocytes normally located at the posterior. Generation of mosaic egg chambers indicates that hup has to be at least somatically required. Possible interactions of hup with Egfr, the Drosophila epidermal growth factor receptor homolog, have been investigated in homozygous double mutants constructed by recombination. Stronger new ovarian phenotypes have been obtained, the most striking being accumulation of follicle cells in multiple layers posteriorly to the oocyte. It is proposed that the hup gene product is a component of the molecular machinery that leads to the establishment of polarity both in follicle cell layer and oocyte, acting in the same or in a parallel pathway of Egfr.
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Vandaele, Leen, Bart Mateusen, Dominiek G. D. Maes, Aart de Kruif, and Ann Van Soom. "Temporal detection of caspase-3 and -7 in bovine in vitro produced embryos of different developmental capacity." Reproduction 133, no. 4 (April 2007): 709–18. http://dx.doi.org/10.1530/rep-06-0109.
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Embryo quality is most frequently evaluated at the blastocyst stage, although quality parameters further back along the developmental axis, such as early developmental kinetics or oocyte quality, can be equally valuable. Despite the fact that previous studies in bovine have linked oocyte diameter and early developmental kinetics with blastocyst formation and viability, their relation with the incidence of apoptosis during embryo development remains relatively unexplored. Therefore, we related non-invasive parameters of oocyte and embryo quality, such as embryo kinetics, embryo morphology, and oocyte diameter, to the incidence of apoptosis throughout embryo development using fluorescent detection of active caspase-3 and -7. First, bovine in vitro embryos were selected according to developmental kinetics and morphology at four set times during culture and subjected to fluorescent detection of active caspase-3 and -7. Caspase activity was significantly higher in slow developing embryos in comparison with fast cleavers (P < 0.05), but was not related to embryo morphology. Second, bovine oocytes were divided into three groups on the basis of oocyte diameter and the resulting embryos were used for staining at the same four set times. Caspase activity was significantly higher in embryos derived from growing oocytes compared with those of fully grown oocytes at 45, 80, and 117 hours post-insemination (hpi; P < 0.05), but not at 168 hpi.
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Xu, Yaxiu, Shanshan Fan, Yujun Liu, Jiaqi Shi, Xianguo Xie, Xiangyan Wang, Chao Wang, Xinfeng Liu, and Guoliang Xia. "HDAC1 in the Ovarian Granulosa Cells of Tan Sheep Improves Cumulus Cell Expansion and Oocyte Maturation Independently of the EGF-like Growth Factors." Biology 11, no. 10 (October 6, 2022): 1464. http://dx.doi.org/10.3390/biology11101464.
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Previous studies have shown that some of the histone deacetylases (HDACs) play diverse roles in the regulation of ovarian somatic cell development, oocyte maturation and early embryonic development in different species including sheep. This study aimed to clarify whether HDAC1 also played pivotal roles in regulating oocyte maturation in Tan sheep. The results showed that HDAC1 was expressed in the nuclei of both the granulosa cells and oocytes of the growing follicles in the Tan sheep’s ovaries. However, the level of HDAC1 was unaffected by luteinizing hormone (LH) induction in cultured granulosa cells. Meanwhile, the specific inhibition of HDAC1 using pyroxamide did not induce significant changes in the expression levels of EGF-like growth factors in vitro, whereas both the cumulus expansion and oocyte maturation of the cultured cumulus oocyte complexes (COCs) were significantly inhibited by pyroxamide. Additionally, the numbers of histone acetylation sites (H4K5, H4K12, H3K14 and H3K9) in ovarian granulosa cells were significantly increased. In conclusion, a constant expression of HDAC1 in the growing follicles of Tan sheep may be pivotal for supporting oocyte growth and maturation, although its action may not be closely correlated with LH induction, nor does it directly affect the expression of the EGF-like factors. Our study implies that there may exist diverse functions of the respective HDACs in modulating female reproduction in sheep.
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Murin, Matej, Frantisek Strejcek, Alexandra Bartkova, Martin Morovic, Michal Benc, Radek Prochazka, Andrea Lucas-Hahn, Lazo Pendovski, and Jozef Laurincik. "Intranuclear characteristics of pig oocytes stained with brilliant cresyl blue and nucleologenesis of resulting embryos." Zygote 27, no. 4 (August 2019): 232–40. http://dx.doi.org/10.1017/s0967199419000352.
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SummaryBrilliant cresyl blue (BCB) vital labelling is a powerful method for analyzing the quality of porcine cumulus–oocyte complexes. Our aim was to investigate the correlation between the selection of porcine oocytes using BCB labelling and selected intranuclear characteristics of porcine oocytes and parthenotes. Moreover, BCB labelling was correlated with the diameter of the oocyte and the developmental potential of the parthenotes. The following methods were used: BCB labelling, measurement of the diameter of the oocyte, parthenogenetic activation, immunocytochemistry, transmission electron microscopy, enucleation and relative protein concentration (RPC) analysis. We determined that the diameter of the oocytes in the BCB-positive (BCB+) group was significantly larger than in the BCB-negative (BCB−) group. Immediately after oocyte selection according to BCB labelling, we found significant difference in chromatin configuration between the analyzed groups. BCB+ oocytes were significantly better at maturation than BCB− oocytes. BCB+ embryos were significantly more competent at cleaving and in their ability to reach the blastocyst stage than BCB− embryos. Ultrastructural analyses showed that the formation of active nucleoli in the BCB+ group started at the 8-cell stage. Conversely, most BCB− embryos at the 8-cell and 16-cell stages were fragmented. No statistically significant difference in RPC in nucleolus precursor bodies (NPBs) between BCB+ and BCB− oocytes was found. We can conclude that BCB labelling could be suitable for assessing the quality of porcine oocytes. Moreover, the evaluation of RPC indicates that the quantitative content of proteins in NPB is already established in growing oocytes.
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Kuzmina, T. I., S. I. Kovtun, E. C. Usenbekov, O. A. Epishko, and V. N. Stefanova. "ANALYSIS OF INDICATORS OF FERTILITY OF PORCINE OOCYTES THAT HAVE FINISHED GROWTH PHASE IN VIVO ASPIRATED FROM THE FOLLICLES OF DIFFERENT DIAMETERS." Animal Breeding and Genetics 51 (March 28, 2018): 240–47. http://dx.doi.org/10.31073/abg.51.32.
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The selection of competent oocytes to completion of meiosis in vitro, fertilization or reconstructing (cloning, transgenesis) is the initial stage of cell reproductive technologies in animal husbandry. The development of effective methods of early prediction prospective potencies for extracorporeal maturation and fertilization of oocyte is the actual problem of rapidly developing embryo technologies. Numerous factors determined developmental competence of the oocytes. Brilliant cresyl blue (BCB) staining has been used for selection of oocytes from several mammalian species, including pigs (Ericsson S. et al, Theriogenology, 39(1): p.214, 1993). BCB determines the intracellular activity of glucose-6-phosphate dehydrogenase, which plays an important role in cell growth, as a key enzyme in the pentose phosphate cycle. The enzyme activity in the growing oocyte increases, opposite in the oocytes that have finished growth phase it decreases (Alm et al., 2005). BCB - diagnostics of the initial population of oocytes based on staining with vital dye brilliant cresyl blue have proposed as an effective indicator of completion of oocyte growth phase.
The aim of the present study was to evaluate the developmental competence of porcine oocytes that have finished growth phase (BCB+) in vivo depending on diameter (d) of follicles (d <3 mm, 3 –5 mm, <6 mm).
Before in vitro maturation compact cumulus oocyte complexes were incubated in BCB solution (13 μM) for 90 minutes. Treated oocytes were divided into BCB- (colourless cytoplasm) and BCB+ (coloured cytoplasm). We have found that different diameter follicles contain both growing oocytes and oocytes that have finished growth phase in vivo (follicles d <3 mm – 71%; follicles d 3 - 5 mm – 86%; follicles d 6 – 8mm – 86%). Only BCB+ oocytes were used in the experiments. The medium used for oocyte maturation was NCSU 23 supplemented with 10% follicular fluid, 0.1 mg/ml cysteine,10 IU/ml eCG and 10 IU/ml hCG. Follicular fluid was collected from follicles with 3 - 6 mm in diameter. Oocyte cumulus complexes were cultured in maturation medium with pieces of wall (600 – 900 µmin length) from non athretic healthy follicles (d 3 – 6mm). After 20 – 22 h of culture, oocyte cumulus complexes and pieces of wall were washed and transferred into the same maturation medium but without hormonal supplements for another 20-22 h of culture. After in vitro maturation, oocytes were fertilized in vitro and embryos were cultured by standard protocols (Kuzmina et al., 2008). We have estimated oocyte maturation, quality of early embryos including status of chromatin (Tarkowsky, 1966). All chemicals used in this study were purchased from Sigma-Aldrich. Data were analyzed by Chi2 – test.
Oocytes that have finished their growth phase of examined species have shown high potency to maturation in all groups of experiment (follicles d <3 mm – 78%; follicles d 3 –5mm – 79%; follicles d 6 – 8 mm– 85%). Level of oocyte with degenerative chromatin had not significant differences in all groups of experiments. We did not find significant differences between the level of cleavage and blastocyst in all groups of experiments. Percentages of cleavage and blastocyst in the groups were: follicles d <3 mm– 43% (27/63) and 29% (18/63); follicles d 3 – 5 mm– 46% (45/98) and 35% (34/98); follicles d < 6 – 8 mm–48% (28/58) and 28% (16/58) (χ² test). Analysis of morphology and chromatin abnormalities in embryos has not shown significant differences between the groups of experiment.
Developmental competence of Sus Scrofa Domesticus oocytes that have finished growth phase in vivo, isolated from the follicles of various diameters (<3 mm, 3 – 5mm and 6 – 8mm) was analyzed. There were no significant differences in the level of cleavage and embryos on the blastocyst stage and their morphological characteristics. The findings suggest the equal potency to the maturation and fertilization of oocytes that have finished growth phase in vivo, independently of diameter of follicles.
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Petr, J., E. Chmelíková, K. Kheilová, and F. Jílek. "Histone deacetylase inhibition improves meiotic competence but not developmental competence in growing pig oocytes." Zygote 17, no. 4 (May 22, 2009): 307–14. http://dx.doi.org/10.1017/s0967199409005437.
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SummaryIn fully grown pig oocytes, meiotic maturation in vitro is retarded by inhibition of histone deacetylases by trichostatin A (TSA). In growing oocytes with partial meiotic competence, culture with TSA has no significant effect on the meiotic maturation. Growing oocytes treated with TSA mature mainly to metaphase I. The ratio of oocytes that mature to metaphase II is very limited. After transient exposure to TSA, the maturation of growing oocytes with partial meiotic competence takes a different course. When these oocytes are first cultured in a TSA-free medium, then cultured for another 24 h with 100 nM TSA and finally again in a TSA-free medium for 24 h, the ratio of oocytes that mature to metaphase II significantly increases reaching 59%. When oocytes were cultured for the same length of time without transient exposure to TSA, only 19% matured to metaphase II. Those oocytes that matured to metaphase II after transient exposure to TSA were successfully activated using calcium ionophore. However, the subsequent cleavage was very limited. We can conclude that transient exposure of growing pig oocytes with partial meiotic competence to TSA increases oocyte meiotic competence, but it does not enhance developmental competence after parthenogenetic activation.
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Xiong, Xianrong, Xiaojian Zhang, Manzhen Yang, Yanjin Zhu, Hailing Yu, Xixi Fei, Fuko Mastuda, et al. "Oocyte-Specific Knockout of Histone Lysine Demethylase KDM2a Compromises Fertility by Blocking the Development of Follicles and Oocytes." International Journal of Molecular Sciences 23, no. 19 (October 9, 2022): 12008. http://dx.doi.org/10.3390/ijms231912008.
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The methylation status of histones plays a crucial role in many cellular processes, including follicular and oocyte development. Lysine-specific demethylase 2a (KDM2a) has been reported to be closely associated with gametogenesis and reproductive performance, but the specific function and regulatory mechanism have been poorly characterized in vivo. We found KDM2a to be highly expressed in growing follicles and oocytes of mice in this study. To elucidate the physiological role of Kdm2a, the zona pellucida 3-Cre (Zp3-Cre)/LoxP system was used to generate an oocyte Kdm2a conditional knockout (Zp3-Cre; Kdm2aflox/flox, termed Kdm2a cKO) model. Our results showed that the number of pups was reduced by approximately 50% in adult Kdm2a cKO female mice mating with wildtype males than that of the control (Kdm2aflox/flox) group. To analyze the potential causes, the ovaries of Kdm2a cKO mice were subjected to histological examination, and results indicated an obvious difference in follicular development between Kdm2a cKO and control female mice and partial arrest at the primary antral follicle stage. The GVBD and matured rates of oocytes were also compromised after conditional knockout Kdm2a, and the morphological abnormal oocytes increased. Furthermore, the level of 17β-estradiol of Kdm2a cKO mice was only 60% of that in the counterparts, and hormone sensitivity decreased as the total number of ovulated and matured oocytes decreased after superovulation. After deletion of Kdm2a, the patterns of H3K36me2/3 in GVBD-stage oocytes were remarkedly changed. Transcriptome sequencing showed that the mRNA expression profiles in Kdm2a cKO oocytes were significantly different, and numerous differentially expressed genes were involved in pathways regulating follicular and oocyte development. Taken together, these results indicated that the oocyte-specific knockout Kdm2a gene led to female subfertility, suggesting the crucial role of Kdm2a in epigenetic modification and follicular and oocyte development.
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Kataruka, Shubhangini, Martin Modrak, Veronika Kinterova, Radek Malik, Daniela M. Zeitler, Filip Horvat, Jiri Kanka, Gunter Meister, and Petr Svoboda. "MicroRNA dilution during oocyte growth disables the microRNA pathway in mammalian oocytes." Nucleic Acids Research 48, no. 14 (July 1, 2020): 8050–62. http://dx.doi.org/10.1093/nar/gkaa543.
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Abstract MicroRNAs (miRNAs) are ubiquitous small RNAs guiding post-transcriptional gene repression in countless biological processes. However, the miRNA pathway in mouse oocytes appears inactive and dispensable for development. We propose that marginalization of the miRNA pathway activity stems from the constraints and adaptations of RNA metabolism elicited by the diluting effects of oocyte growth. We report that miRNAs do not accumulate like mRNAs during the oocyte growth because miRNA turnover has not adapted to it. The most abundant miRNAs total tens of thousands of molecules in growing (∅ 40 μm) and fully grown (∅ 80 μm) oocytes, a number similar to that observed in much smaller fibroblasts. The lack of miRNA accumulation results in a 100-fold lower miRNA concentration in fully grown oocytes than in somatic cells. This brings a knock-down-like effect, where diluted miRNAs engage targets but are not abundant enough for significant repression. Low-miRNA concentrations were observed in rat, hamster, porcine and bovine oocytes, arguing that miRNA inactivity is not mouse-specific but a common mammalian oocyte feature. Injection of 250,000 miRNA molecules was sufficient to restore reporter repression in mouse and porcine oocytes, suggesting that miRNA inactivity comes from low-miRNA abundance and not from some suppressor of the pathway.
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Eppig, J. J., and K. Sugiura. "010. Oocyte control of granulosa cell development and function." Reproduction, Fertility and Development 17, no. 9 (2005): 66. http://dx.doi.org/10.1071/srb05abs010.
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Oocytes orchestrate the rate of follicular development and the patterns of gene expression by granulosa cells (GCs). There are two populations of GCs in large antral follicles: mural granulosa cells (MGCs) that line the ovarian follicle wall, and cumulus cells (CCs) closely associated with the oocyte. Subtraction hybridization was used to find transcripts more highly expressed in CCs than MGCs. Among the genes expressed more highly in CCs was one encoding an amino acid transporter (Slc38a3). Slc38a3 mRNA was not detected in oocytes. Expression of Slc38a3 mRNA was reduced in the CCs after removal of the oocyte and restored by co-culturing CCs with fully grown oocytes (FGOs). Alanine is one of the amino acids transported by SLC38A3. This amino acid is poorly transported across the oocyte plasma membrane, but gains access to the oocyte from the cumulus cells via gap junctional communication. Alanine transport into cumulus cells was promoted by paracrine factors secreted by FGOs, but not by growing oocytes (GOs) from preantral follicles. Thus FGOs promote the transport of alanine into CCs, and this amino acid is then passed on to the oocyte via gap junctions. Transcripts encoding enzymes in the glycolytic pathway were also more highly expressed in CCs than MGCs. FGOs, but not GOs, promote elevated expression of some of these transcripts. Likewise, FGOs promote both glycolysis and oxidative phosphorylation by isolated CCs and MGCs. Oocytes do not effectively utilize glucose as an energy source, and oocytes require the presence of CCs to resume meiosis when glucose is the only energy source present. In contrast, oocytes can resume meiosis in the absence of CCs when pyruvate is the sole energy source. Thus oocytes apparently promote glycolysis by their companion granulosa cells to provide energy for their own development. In addition, this may be one way that oocytes coordinate their development with that of follicular somatic components. Supported by Grants HD23839 and HD44416 from the NICHD.
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Oh, B., S. Hwang, J. McLaughlin, D. Solter, and B. B. Knowles. "Timely translation during the mouse oocyte-to-embryo transition." Development 127, no. 17 (September 1, 2000): 3795–803. http://dx.doi.org/10.1242/dev.127.17.3795.
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In the mouse, completion of oocyte maturation and the initiation of preimplantation development occur during transcriptional silence and depend on the presence and translation of stored mRNAs transcribed in the growing oocyte. The Spin gene has three transcripts, each with an identical open reading frame and a different 3′ untranslated region (UTR). (Beta)-galactosidase-tagged reporter transcripts containing each of the different Spin 3′UTRs were injected into oocytes and zygotes and (beta)-galactosidase activity was monitored. Results from these experiments suggest that differential polyadenylation and translation occurs at two critical points in the oocyte-to-embryo transition - upon oocyte maturation and fertilization - and is dependent on sequences in the 3′UTR. The stability and mobility shifts of ten other maternal transcripts were monitored by reprobing a northern blot of oocytes and embryos collected at 12 hour intervals after fertilization. Some are more stable than others and the upward mobility shift associated with polyadenylation correlates with the presence of cytoplasmic polyadenylation elements (CPEs) within about 120 nucleotides of the nuclear polyadenylation signal. A survey of the 3′ UTRs of expressed sequence tag clusters from a mouse 2-cell stage cDNA library indicates that about one third contain CPEs. We suggest that differential transcript stability and a translational control program can supply the diversity of protein products necessary for oocyte maturation and the initiation of development.
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Turan, Volkan, and Kutluk Oktay. "BRCA-related ATM-mediated DNA double-strand break repair and ovarian aging." Human Reproduction Update 26, no. 1 (December 10, 2019): 43–57. http://dx.doi.org/10.1093/humupd/dmz043.
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Abstract BACKGROUND Oocyte aging has significant clinical consequences, and yet no treatment exists to address the age-related decline in oocyte quality. The lack of progress in the treatment of oocyte aging is due to the fact that the underlying molecular mechanisms are not sufficiently understood. BRCA1 and 2 are involved in homologous DNA recombination and play essential roles in ataxia telangiectasia mutated (ATM)-mediated DNA double-strand break (DSB) repair. A growing body of laboratory, translational and clinical evidence has emerged within the past decade indicating a role for BRCA function and ATM-mediated DNA DSB repair in ovarian aging. OBJECTIVE AND RATIONALE Although there are several competing or complementary theories, given the growing evidence tying BRCA function and ATM-mediated DNA DSB repair mechanisms in general to ovarian aging, we performed this review encompassing basic, translational and clinical work to assess the current state of knowledge on the topic. A clear understanding of the mechanisms underlying oocyte aging may result in targeted treatments to preserve ovarian reserve and improve oocyte quality. SEARCH METHODS We searched for published articles in the PubMed database containing key words, BRCA, BRCA1, BRCA2, Mutations, Fertility, Ovarian Reserve, Infertility, Mechanisms of Ovarian Aging, Oocyte or Oocyte DNA Repair, in the English-language literature until May 2019. We did not include abstracts or conference proceedings, with the exception of our own. OUTCOMES Laboratory studies provided robust and reproducible evidence that BRCA1 function and ATM-mediated DNA DSB repair, in general, weakens with age in oocytes of multiple species including human. In both women with BRCA mutations and BRCA-mutant mice, primordial follicle numbers are reduced and there is accelerated accumulation of DNA DSBs in oocytes. In general, women with BRCA1 mutations have lower ovarian reserves and experience earlier menopause. Laboratory evidence also supports critical role for BRCA1 and other ATM-mediated DNA DSB repair pathway members in meiotic function. When laboratory, translational and clinical evidence is considered together, BRCA-related ATM-mediated DNA DSB repair function emerges as a likely regulator of ovarian aging. Moreover, DNA damage and repair appear to be key features in chemotherapy-induced ovarian aging. WIDER IMPLICATIONS The existing data suggest that the BRCA-related ATM-mediated DNA repair pathway is a strong candidate to be a regulator of oocyte aging, and the age-related decline of this pathway likely impairs oocyte health. This knowledge may create an opportunity to develop targeted treatments to reverse or prevent physiological or chemotherapy-induced oocyte aging. On the immediate practical side, women with BRCA or similar mutations may need to be specially counselled for fertility preservation.
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Yoon, Hyemin, Hoon Jang, Eun-Young Kim, Sohyeon Moon, Sangho Lee, Minha Cho, Hye Jung Cho, et al. "Knockdown of PRKAR2B Results in the Failure of Oocyte Maturation." Cellular Physiology and Biochemistry 45, no. 5 (2018): 2009–20. http://dx.doi.org/10.1159/000487978.
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Background/Aims: Cyclic adenosine monophosphate (cAMP)-dependent type 2 regulatory subunit beta (Prkar2b) is a regulatory isoform of cAMP-dependent protein kinase (PKA), which is the primary target for cAMP actions. In oocytes, PKA and the pentose phosphate pathway (PPP) have important roles during the germinal vesicle (GV) stage arrest of development. Although the roles of the PKA signal pathway have been studied in the development of oocyte, there has been no report on the function of PRKAR2B, a key regulator of PKA. Methods: Using reverse transcription polymerase chain reaction (RT-PCR), quantitative real-time PCR (qRT-PCR), immunohistochemistry, and immunofluorescence, we determined the relative expression of Prkar2b in various tissues, including ovarian follicles, during oocyte maturation. Prkar2b-interfering RNA (RNAi) microinjection was conducted to confirm the effect of Prkar2b knockdown, and immunofluorescence, qRT-PCR, and time-lapse video microscopy were used to analyze Prkar2b-deficient oocytes. Results: Prkar2b is strongly expressed in the ovarian tissues, particularly in the growing follicle. During oocyte maturation, the highest expression of Prkar2b was during metaphase I (MI), with a significant decrease at metaphase II (MII). RNAi-mediated Prkar2b suppression resulted in MI-stage arrest during oocyte development, and these oocytes exhibited abnormal spindle formation and chromosome aggregation. Expression of other members of the PKA family (except for Prkaca) were decreased, and the majority of the PPP factors were also reduced in Prkar2b-deficient oocytes. Conclusion: These results suggest that Prkar2b is closely involved in the maturation of oocytes by controlling spindle formation and PPP-mediated metabolism.
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Clark, Zaramasina L., Derek A. Heath, Anne R. O’Connell, Jennifer L. Juengel, Kenneth P. McNatty, and Janet L. Pitman. "The follicular microenvironment in low (++) and high (I+B+) ovulation rate ewes." Reproduction 159, no. 5 (May 2020): 585–99. http://dx.doi.org/10.1530/rep-19-0613.
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Ewes with single copy mutations in GDF9, BMP15 or BMPR1B have smaller preovulatory follicles containing fewer granulosa cells (GC), while developmental competency of the oocyte appears to be maintained. We hypothesised that similarities and/or differences in follicular maturation events between WT (++) ewes and mutant ewes with single copy mutations in BMP15 and BMPR1B (I+B+) are key to the attainment of oocyte developmental competency and for increasing ovulation rate (OR) without compromising oocyte quality. Developmental competency of oocytes from I+B+ animals was confirmed following embryo transfer to recipient ewes. The microenvironment of both growing and presumptive preovulatory (PPOV) follicles from ++ and I+B+ ewes was investigated. When grouped according to gonadotropin-responsiveness, PPOV follicles from I+B+ ewes had smaller mean diameters with fewer GC than equivalent follicles in ++ ewes (OR = 4.4 ± 0.7 and 1.7 ± 0.2, respectively; P < 0.001). Functional differences between these genotypes included differential gonadotropin-responsiveness of GC, follicular fluid composition and expression levels of cumulus cell-derived VCAN, PGR, EREG and BMPR2 genes. A unique microenvironment was characterised in I+B+ follicles as they underwent maturation. Our evidence suggests that GC were less metabolically active, resulting in increased follicular fluid concentrations of amino acids and metabolic substrates, potentially protecting the oocyte from ROS. Normal expression levels of key genes linked to oocyte quality and embryo survival in I+B+ follicles support the successful lambing percentage of transferred I+B+ oocytes. In conclusion, these I+B+ oocytes develop normally, despite radical changes in follicular size and GC number induced by these combined heterozygous mutations.
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Obata, Y., and T. Kono. "254 DEVELOPMENTAL COMPETENCE OF MOUSE OOCYTES AFTER IN VITRO GROWTH, NUCLEAR TRANSFER, AND IN VITRO FERTILIZATION." Reproduction, Fertility and Development 19, no. 1 (2007): 243. http://dx.doi.org/10.1071/rdv19n1ab254.
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Long-term effects of in vitro maturation of oocytes and in vitro culture of fertilized eggs have been reported in ruminants, mice, and humans. However, effects of in vitro oocyte growth are unknown. Although a large number of non-growing oocytes can be a gamete resource, very few oocytes ever acquire competence to support full-term development after in vitro growth. The objective of the study was to evaluate different culture conditions and the long-term effects of in vitro oocyte growth on the production of offspring. Oocytes of newborn, 10-day-old, and adult BDF1 (C57BL/6N � DBA2) mice were cultured for 22, 11, and 1 day(s), respectively. The results showed that alpha-MEM medium was superior to Waymouth medium in oocyte growth (68.6 � 3.87 �m vs. 61.7 � 3.26 �m, respectively; P < 0.001), and in maintenance of follicular integrity (69% vs. 30%; P < 0.001) when non-growing oocytes from newborn mice were cultured. However, oocytes grown in vitro were incompetent to support meiotic maturation by themselves in the case of either the 22-day culture of oocytes from newborn mice (1/59 in alpha-MEM vs. 1/65 in Waymouth) or the 11-day culture of oocytes from 10-day-old mice (51/140 in alpha-MEM vs. 2/157 in Waymouth), and none of them developed to the blastocyst stage. Subsequently, to examine the nucleic competence of oocytes grown in vitro, serial nuclear transfers were carried out. Karyoplasts from oocytes grown in vitro using alpha-MEM were fused with the GV oocytes grown in vivo after enucleation. The reconstituted oocytes were cultured in alpha-MEM. After 14 h, MII chromosomes of the reconstituted oocytes were transferred into the enucleated and ovulated MII oocytes in order to provide cytoplasmic competency. The results showed that when the donor oocytes attained a diameter of e60 �m, the reconstituted oocytes could develop into pups at extremely high rates (30-41%) after in vitro fertilization (IVF) and embryo transfer in the case of either the 22-day culture of oocytes from newborn mice (7/17) or the 11-day culture of oocytes from 10-day-old mice (25/77). A significant difference was not observed in the competence to develop to term of the reconstituted oocytes when compared with that of the oocytes reconstituted from the control GV (25/52; P > 0.05). When the donor oocytes attained a diameter of 50–60 �m, the reconstituted oocytes also could develop into pups (7/33); however, their efficiency was significantly reduced when compared with that of the reconstituted oocytes from the control GV (P < 0.05). On the other hand, the weight of the offspring depended on the duration of culture, and offspring from non-growing oocytes (1.48 � 0.17 g) were heavier than those of the IVF control (1.25 � 0.14 g; P < 0.05). In conclusion, we have demonstrated that using a nuclear transfer technique combined with in vitro growth of oocytes was sufficient to produce functional oocytes, and long-term culture for oocyte growth did not affect the nucleic ability of oocytes to develop to term; however, fetal growth may be susceptible to the duration of culture.
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Martín-Maestro, Alicia, Irene Sánchez-Ajofrín, Carolina Maside, Patricia Peris-Frau, Daniela-Alejandra Medina-Chávez, Beatriz Cardoso, José Carlos Navarro, María Rocío Fernández-Santos, José Julián Garde, and Ana Josefa Soler. "Cellular and Molecular Events that Occur in the Oocyte during Prolonged Ovarian Storage in Sheep." Animals 10, no. 12 (December 17, 2020): 2414. http://dx.doi.org/10.3390/ani10122414.
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For the past two decades, there has been a growing interest in the application of in vitro embryo production (IVP) in small ruminants such as sheep. To improve efficiency, a large number abattoir-derived ovaries must be used, and long distances from the laboratory are usually inevitable when adult animals are used. In that scenario, prolonged sheep ovary transportation may negatively affect oocyte developmental competence. Here, we evaluated the effect of ovary storage time (3, 5, 7, 9, 11 and 13 h) and the medium in which they were transported (TCM199 and saline solution) on oocyte quality. Thus, live/dead status, early apoptosis, DNA fragmentation, reduced glutathione (GSH) and reactive oxygen species (ROS) content, caspase-3 activity, mitochondrial membrane potential and distribution, and relative abundance of mRNA transcript levels were assessed in oocytes. After in vitro maturation (IVM), cumulus cell viability and quality, meiotic and fertilization competence, embryo rates and blastocyst quality were also evaluated. The results revealed that, after 7 h of storage, oocyte quality and developmental potential were significantly impaired since higher rates of dead oocytes and DNA fragmentation and lower rates of viable, matured and fertilized oocytes were observed. The percentage of cleavage, blastocyst rates and cumulus cell parameters (viability, active mitochondria and GSH/ROS ratio) were also decreased. Moreover, the preservation of ovaries in medium TCM199 had a detrimental effect on cumulus cells and oocyte competence. In conclusion, ovary transport times up to 5 h in saline solution are the most adequate storage conditions to maintain oocyte quality as well as developmental capacity in sheep. A strategy to rescue the poor developmental potential of stored oocytes will be necessary for successful production of high-quality embryos when longer ovarian preservation times are necessary.
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Dong, Rosemary, Ibrahim Elesh, So-Youn Kim, Pauline Xu, Seok-Yeong Yu, and Yi Luan. "OR06-1 Cyclophosphamide Depletes Primordial Follicles via the p63 Apoptotic Pathway." Journal of the Endocrine Society 6, Supplement_1 (November 1, 2022): A676—A677. http://dx.doi.org/10.1210/jendso/bvac150.1399.
Full textAbstract:
Abstract Cancer therapies often cause serious side effects, affecting the quality of life for cancer survivors. The ovary can be affected by cancer therapies, causing premature ovarian insufficiency, leading to endocrine dysfunction and infertility. Thus, maintaining ovarian function against cancer treatment is an unmet need for female cancer patients. Cyclophosphamide (CPA), a common chemotherapeutic agent, is metabolized in vivo and forms DNA crosslinks, inducing apoptosis in rapidly proliferating tumor cells. However, the underlying mechanism of the CPA-induced oocyte death in ovarian reserve remains unclear. This study aims to investigate the mechanism of oocyte death in primordial follicles by generating oocyte-specific Abl1 and p63 knockout and Pik3ca* knockin mouse models using Gdf9-iCre+. Postnatal day 7 female mice were i.p. injected w/wo CPA. Notably, we found CPA drastically reduced the number of primordial follicles without increasing the number of growing follicles. The quantification of surviving follicles validated that 90% of the primordial follicles from oocyte-specific Abl1 knockout mice were lost following CPA treatment in vivo and in vitro. Concurrently, high expression of CHK2 was detected in the oocytes of the ovary cultured with CPA metabolite in vitro. This implied CHK2 rather than ABL is a possible tyrosine kinase for CPA-induced oocyte death. Most of all, p63 was a key player for CPA-induced oocyte death, supported by the result that p63 knockout oocytes were rescued after CPA treatment. To clarify whether the ovaries lose follicles via activation or apoptosis pathway, PIK3CA* mice were examined with CPA. As expected, primordial follicles and primordial follicles with activated oocytes in the ovary of PIK3CA* mice survived against CPA due to constitutive PI3K activity in them. This indicates activated follicles resist gonadotoxic reagents, although p63 is expressed inside their oocytes. Accordingly, the apoptosis markers, BAX and cleaved PARP were highly induced with CPA injection in a time-dependent manner in the ovaries from wild-type female mice but not from the p63 knockout. The double-strand break also occurred in the nucleus of oocytes post CPA administration as γH2AX was detected. Interestingly, OPA1, a protein required for mitochondrial fusion, was highly induced inside the oocyte cytoplasm of p63 knockout, while oocytes in wild-type mice time-dependently lost the OPA1 expression by CPA treatment. This indicates that oocytes without p63 in the nucleus survive and induce mitochondrial fusion to escape apoptosis by mitochondrial damages. In conclusion, CPA induces depletion of oocytes of primordial follicles through the CHK2-TAp63 apoptotic pathway. Presentation: Saturday, June 11, 2022 11:30 a.m. - 11:45 a.m.
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FitzHarris, Greg, and Jay M. Baltz. "Regulation of intracellular pH during oocyte growth and maturation in mammals." REPRODUCTION 138, no. 4 (October 2009): 619–27. http://dx.doi.org/10.1530/rep-09-0112.
Full textAbstract:
Regulation of intracellular pH (pHi) is a fundamental homeostatic process essential for the survival and proliferation of virtually all cell types. The mammalian preimplantation embryo, for example, possesses Na+/H+and HCO3−/Cl−exchangers that robustly regulate against acidosis and alkalosis respectively. Inhibition of these transporters prevents pH corrections and, perhaps unsurprisingly, leads to impaired embryogenesis. However, recent studies have revealed that the role and regulation of pHiis somewhat more complex in the case of the developing and maturing oocyte. Small meiotically incompetent growing oocytes are apparently incapable of regulating their own pHi, and instead rely upon the surrounding granulosa cells to correct ooplasmic pH, until such a time that the oocyte has developed the capacity to regulate its own pHi. Later, during meiotic maturation, pHi-regulating activities that were developed during growth are inactivated, apparently under the control of MAPK signalling, until the oocyte is successfully fertilized. Here, we will discuss pH homeostasis in early mammalian development, focussing on recent developments highlighting the unusual and unexpected scenario of pH regulation during oocyte growth and maturation.
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Tada, T., Y. Obata, M. Tada, Y. Goto, N. Nakatsuji, S. Tan, T. Kono, and N. Takagi. "Imprint switching for non-random X-chromosome inactivation during mouse oocyte growth." Development 127, no. 14 (July 15, 2000): 3101–5. http://dx.doi.org/10.1242/dev.127.14.3101.
Full textAbstract:
In mammals, X-chromosome inactivation occurs in all female cells, leaving only a single active X chromosome. This serves to equalise the dosage of X-linked genes in male and female cells. In the mouse, the paternally derived X chromosome (X(P)) is imprinted and preferentially inactivated in the extraembryonic tissues whereas in the embryonic tissues inactivation is random. To investigate how X(P) is chosen as an inactivated X chromosome in the extraembryonic cells, we have produced experimental embryos by serial nuclear transplantation from non-growing (ng) oocytes and fully grown (fg) oocytes, in which the X chromosomes are marked with (1) an X-linked lacZ reporter gene to assay X-chromosome activity, or (2) the Rb(X.9)6H translocation as a cytogenetic marker for studying replication timing. In the extraembryonic tissues of these ng/fg embryos, the maternal X chromosome (X(M)) derived from the ng oocyte was preferentially inactivated whereas that from the fg oocyte remained active. However, in the embryonic tissues, X inactivation was random. This suggests that (1) a maternal imprint is set on the X(M) during oocyte growth, (2) the maternal imprint serves to render the X(M) resistant to inactivation in the extraembryonic tissues and (3) the X(M) derived from an ng oocyte resembles a normal X(P).
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Liang, L. F., S. M. Chamow, and J. Dean. "Oocyte-specific expression of mouse Zp-2: developmental regulation of the zona pellucida genes." Molecular and Cellular Biology 10, no. 4 (April 1990): 1507–15. http://dx.doi.org/10.1128/mcb.10.4.1507-1515.1990.
Full textAbstract:
The zona pellucida surrounds all mammalian oocytes and plays a vital role at fertilization and in early development. The genes that code for two of the mouse zona proteins (ZP2 and ZP3) represent a developmentally regulated set of genes whose expression serves as markers of mouse oocyte growth and differentiation. We previously characterized the single-copy Zp-3 gene and showed that its expression is oocyte specific and restricted to a narrow window of oocyte development. We now define the Zp-2 gene transcript and show that it is coordinately expressed with Zp-3 only during the 2-week growth phase of oogenesis that occurs prior to ovulation. Like Zp-3, the expression of Zp-2 is restricted to oocytes, and, although not detectable in resting oocytes, both ZP2 and ZP3 transcripts accumulate to become very abundant messengers in 50-microns-diameter oocytes. Ovulated eggs contain ZP2 and ZP3 transcripts which are 200 nucleotides shorter than those found in growing oocytes and have an abundance of less than 5% of the peak levels. In an attempt to understand the molecular details associated with the developmentally regulated, tissue-specific gene expression of the zona genes, the Zp-2 genetic locus has been characterized and its 5' flanking sequences have been compared with those of Zp-3. Both genes contain three short (8- to 12-base-pair) DNA sequences of 80 to 88% identity located within 250 base pairs of their transcription start sites.
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Liang, L. F., S. M. Chamow, and J. Dean. "Oocyte-specific expression of mouse Zp-2: developmental regulation of the zona pellucida genes." Molecular and Cellular Biology 10, no. 4 (April 1990): 1507–15. http://dx.doi.org/10.1128/mcb.10.4.1507.
Full textAbstract:
The zona pellucida surrounds all mammalian oocytes and plays a vital role at fertilization and in early development. The genes that code for two of the mouse zona proteins (ZP2 and ZP3) represent a developmentally regulated set of genes whose expression serves as markers of mouse oocyte growth and differentiation. We previously characterized the single-copy Zp-3 gene and showed that its expression is oocyte specific and restricted to a narrow window of oocyte development. We now define the Zp-2 gene transcript and show that it is coordinately expressed with Zp-3 only during the 2-week growth phase of oogenesis that occurs prior to ovulation. Like Zp-3, the expression of Zp-2 is restricted to oocytes, and, although not detectable in resting oocytes, both ZP2 and ZP3 transcripts accumulate to become very abundant messengers in 50-microns-diameter oocytes. Ovulated eggs contain ZP2 and ZP3 transcripts which are 200 nucleotides shorter than those found in growing oocytes and have an abundance of less than 5% of the peak levels. In an attempt to understand the molecular details associated with the developmentally regulated, tissue-specific gene expression of the zona genes, the Zp-2 genetic locus has been characterized and its 5' flanking sequences have been compared with those of Zp-3. Both genes contain three short (8- to 12-base-pair) DNA sequences of 80 to 88% identity located within 250 base pairs of their transcription start sites.
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Barone, Stefano, Patrizia Sarogni, Roberto Valli, Maria Michela Pallotta, Gazzi Silvia, Annalisa Frattini, Abdul Waheed Khan, Erika Rapalini, Cristiana Parri, and Antonio Musio. "Chromosome Missegregation in Single Human Oocytes Is Related to the Age and Gene Expression Profile." International Journal of Molecular Sciences 21, no. 6 (March 12, 2020): 1934. http://dx.doi.org/10.3390/ijms21061934.
Full textAbstract:
The growing trend for women to postpone childbearing has resulted in a dramatic increase in the incidence of aneuploid pregnancies. Despite the importance to human reproductive health, the events precipitating female age-related meiotic errors are poorly understood. To gain new insight into the molecular basis of age-related chromosome missegregation in human oocytes, we combined the transcriptome profiles of twenty single oocytes (derived from females divided into two groups according to age <35 and ≥35 years) with their chromosome status obtained by array comparative genomic hybridization (aCGH). Furthermore, we compared the transcription profile of the single oocyte with the surrounding cumulus cells (CCs). RNA-seq data showed differences in gene expression between young and old oocytes. Dysregulated genes play a role in important biological processes such as gene transcription regulation, cytoskeleton organization, pathways related to RNA maturation and translation. The comparison of the transcription profile of the oocyte and the corresponding CCs highlighted the differential expression of genes belonging to the G protein-coupled receptor superfamily. Finally, we detected the loss of a X chromosome in two oocytes derived from women belonging to the ≥35 years age group. These aneuploidies may be caused by the detriment of REEP4, an endoplasmic reticulum protein, in women aged ≥35 years. Here we gained new insight into the complex regulatory circuit between the oocyte and the surrounding CCs and uncovered a new putative molecular basis of age-related chromosome missegregation in human oocytes.
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Fan, Xueying, Ioannis Moustakas, Monika Bialecka, Julieta S. del Valle, Arend W. Overeem, Leoni A. Louwe, Gonneke S. K. Pilgram, Lucette A. J. van der Westerlaken, Hailiang Mei, and Susana M. Chuva de Sousa Lopes. "Single-Cell Transcriptomics Analysis of Human Small Antral Follicles." International Journal of Molecular Sciences 22, no. 21 (November 4, 2021): 11955. http://dx.doi.org/10.3390/ijms222111955.
Full textAbstract:
Human ovarian folliculogenesis is a highly regulated and complex process. Characterization of follicular cell signatures during this dynamic process is important to understand follicle fate (to grow, become dominant, or undergo atresia). The transcriptional signature of human oocytes and granulosa cells (GCs) in early-growing and ovulatory follicles have been previously described; however, that of oocytes with surrounding GCs in small antral follicles have not been studied yet. Here, we have generated a unique dataset of single-cell transcriptomics (SmartSeq2) consisting of the oocyte with surrounding GCs from several individual (non-dominant) small antral follicles isolated from adult human ovaries. We have identified two main types of (healthy) follicles, with a distinct oocyte and GC signature. Using the CellphoneDB algorithm, we then investigated the bi-directional ligand–receptor interactions regarding the transforming growth factor-β (TGFβ)/bone morphogenetic protein (BMP), wingless-type (MMTV)-integration site (WNT), NOTCH, and receptor tyrosine kinases (RTK) signaling pathways between oocyte and GCs within each antral follicle type. Our work not only revealed the diversity of small antral follicles, but also contributes to fill the gap in mapping the molecular landscape of human folliculogenesis and oogenesis.
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Pocar, P., R. Augustin, F. Gandolfi, and B. Fischer. "Octylphenol, an environmental oestrogen, affects oocyte maturation in cattle." Proceedings of the British Society of Animal Science 2001 (2001): 64. http://dx.doi.org/10.1017/s1752756200004464.
Full textAbstract:
4-tert-octylphenol (OP) is an alkylphenolic compound formed as metabolite of some nonionic surfactants that are widely used in industrial detergents, as plastic additives, dispersant for insecticides, etc. (Naylor et al., 1992). OP accumulates in adipose tissue. Micromolar concentrations of these compounds may constitute health hazards to animal cells. Furthermore, it has previously been shown to exert oestrogenic activity in vivo and in vitro (White et al., 1994). A growing concern about “endocrine disruptors” and their impact on oestrogen-dependent phenomena led us investigate the effects of OP on oocyte maturation. For variuos reasons bovine oocytes were chosen as the model system. We examined the effects of OP exposure on oocyte nuclear maturation in vitro and on the expression of oestrogen receptors in cumulus cells.
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Uzbekova, Svetlana, Priscila Silvana Bertevello, Rozenn Dalbies-Tran, Sebastien Elis, Valerie Labas, Philippe Monget, and Ana-Paula Teixeira-Gomes. "Metabolic exchanges between the oocyte and its environment: focus on lipids." Reproduction, Fertility and Development 34, no. 2 (2022): 1. http://dx.doi.org/10.1071/rd21249.
Full textAbstract:
Finely regulated fatty acid (FA) metabolism within ovarian follicles is crucial to follicular development and influences the quality of the enclosed oocyte, which relies on the surrounding intra-follicular environment for its growth and maturation. A growing number of studies have examined the association between the lipid composition of follicular compartments and oocyte quality. In this review, we focus on lipids, their possible exchanges between compartments within the ovarian follicle and their involvement in different pathways during oocyte final growth and maturation. Lipidomics provides a detailed snapshot of the global lipid profiles and identified lipids, clearly discriminating the cells or fluid from follicles at distinct physiological stages. Follicular fluid appears as a main mediator of lipid exchanges between follicular somatic cells and the oocyte, through vesicle-mediated and non-vesicular transport of esterified and free FA. A variety of expression data allowed the identification of common and cell-type-specific actors of lipid metabolism in theca cells, granulosa cells, cumulus cells and oocytes, including key regulators of FA uptake, FA transport, lipid transformation, lipoprotein synthesis and protein palmitoylation. They act in harmony to accompany follicular development, and maintain intra-follicular homeostasis to allow the oocyte to accumulate energy and membrane lipids for subsequent meiotic divisions and first embryo cleavages.
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Obata, Y., T. Kaneko-Ishino, T. Koide, Y. Takai, T. Ueda, I. Domeki, T. Shiroishi, F. Ishino, and T. Kono. "Disruption of primary imprinting during oocyte growth leads to the modified expression of imprinted genes during embryogenesis." Development 125, no. 8 (April 15, 1998): 1553–60. http://dx.doi.org/10.1242/dev.125.8.1553.
Full textAbstract:
Parthenogenetic embryos, which contained one genome from a neonate-derived non-growing oocyte and the other from a fully grown oocyte, developed to day 13.5 of gestation in mice, 3 days longer than previously recorded for parthenogenetic development. To investigate the hypothesis that disruption of primary imprinting during oocyte growth leads to the modified expression of imprinted genes and this parthenogenetic phenotype, we have examined Peg1/Mest, Igf2, Peg3, Snrpn, H19, Igf2r and excess p57KIP2. We show that paternally expressed genes, Peg1/Mest, Peg3 and Snrpn, are expressed in the parthenotes, presumably due to a lack of maternal epigenetic modifications during oocyte growth. In contrast, the expression of Igf2, which is repressed in a competitive manner by transcription of the H19 gene, was very low. Furthermore, we show that the maternally expressed Igf2r and p57KIP2 genes were repressed in the alleles of the non-growing oocyte indicating maternal modifications during oocyte growth are necessary for its expression. Thus, our results show that primary imprinting during oocyte growth exhibits a crucial effect on both the expression and repression of maternal alleles during embryogenesis.
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Qi, Huayu, Zev Williams, and Paul M. Wassarman. "Secretion and Assembly of Zona Pellucida Glycoproteins by Growing Mouse Oocytes Microinjected with Epitope-tagged cDNAs for mZP2 and mZP3." Molecular Biology of the Cell 13, no. 2 (February 2002): 530–41. http://dx.doi.org/10.1091/mbc.01-09-0440.
Full textAbstract:
The zona pellucida (ZP) is a highly organized extracellular coat that surrounds all mammalian eggs. The mouse egg ZP is composed of three glycoproteins, called mZP1–3, that are synthesized, secreted, and assembled into a ZP exclusively by growing oocytes. Here, we microinjected epitope-tagged (Myc andFlag) cDNAs for mZP2 and mZP3 into the germinal vesicle (nucleus) of growing oocytes isolated from juvenile mice. Specific antibodies and laser scanning confocal microscopy were used to follow nascent, recombinant ZP glycoproteins in both permeabilized and nonpermeabilized oocytes. When such cDNAs were injected, epitope-tagged mZP2 (Myc-mZP2) and mZP3 (Flag-mZP3) were synthesized, packaged into large intracellular vesicles, and secreted by the vast majority of oocytes. Secreted glycoproteins were incorporated into only the innermost layer of the thickening ZP, and the amount of nascent glycoprotein in this region increased with increasing time of oocyte culture. Consistent with prior observations, the putative transmembrane domain at the C terminus of mZP2 and mZP3 was missing from nascent glycoprotein incorporated into the ZP. When the consensus furin cleavage site near the C terminus of mZP3 was mutated, such that it should not be cleaved by furin, secretion and assembly of mZP3 was reduced. On the other hand, mZP3 incorporated into the ZP lacked the transmembrane domain downstream of the mutated furin cleavage site, suggesting that some other protease(s) excised the domain. These results strongly suggest that nascent mZP2 and mZP3 are incorporated into only the innermost layer of the ZP and that excision of the C-terminal region of the glycoproteins is required for assembly into the oocyte ZP.
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Catalá, M. G., D. Izquierdo, R. Romaguera, S. Hammami, M. Roura, and M. T. Paramio. "251 SELECTION OF PREPUBERTAL SHEEP OOCYTES USING BRILLIANT CRESYL BLUE TEST." Reproduction, Fertility and Development 23, no. 1 (2011): 223. http://dx.doi.org/10.1071/rdv23n1ab251.
Full textAbstract:
The aim of this study was to evaluate the utility of the brilliant cresyl blue (BCB) test as an indirect measure of oocyte growth to select competent prepubertal sheep oocytes for in vitro embryo production. The BCB stain allows the determination of glucose–6-phosphate dehydrogenase (G6PD) activity, an enzyme with decreased activity in oocytes that have finished their growth phase. Oocytes were obtained after slicing the surface of lamb ovaries (2–5 months old) obtained from a local abattoir. Oocytes with more than 3 compact cumulus layers and homogeny cytoplasm were selected and stained with different concentrations of BCB diluted in PBS (13-, 26-, 39-, and 52-μM BCB) during 60 min at 38.5°C in a humidified air atmosphere. Oocytes were classified into groups depending on their cytoplasm coloration: oocytes with blue cytoplasm or grown oocytes (BCB+) and oocytes without blue coloration or growing oocytes (BCB–). Oocytes were matured in an enriched TCM-199 medium for 24 h at 38.5°C and 5% CO2 in a humidified atmosphere. Oocyte diameter was also measured. Matured oocytes were partially denuded and transferred to fertilization medium (SOF) supplemented with 10% of oestrous sheep serum. Fresh semen was kept at room temperature (25°C) for 1 h. Highly motile spermatozoa were selected by using Ovipure density gradient (Nidacon EVB S.L.), and oocytes were fertilized with 1 × 106 sp mL–1. After 20 h postinsemination, presumptive zygotes were cultured for 8 days in SOF with 10% of fetal bovine serum at 38.5°C, 5% CO2, and 90% N2. Data was analysed by performing Fisher’s exact test for blastocyst production and ANOVA with Tukey’s post-test for oocyte diameter. Table 1 shows the percentage of BCB-stained oocytes and their embryo development. In this study oocytes exposed during 60 min to 13-μM BCB showed a higher percentage of embryos reaching blastocyst stage than did those in the control group (≤0.01). In other species such as goats (Rodriguez-Gonzalez et al. 2002 Theriogenology 57(5), 1397–1409) and cattle (Alm et al. 2005 Theriogenology 63(8), 2194–2205), the best protocol for the oocyte selection was the use of 26-μM BCB during 90 min. Oocyte diameter showed significant differences between BCB– with BCB+ and control group (110 μm, 134 μm, and 121 μm, respectively, ≤0.001). In conclusion, using 13 μM of BCB during 60 min is a suitable technique for increasing embryo blastocyst rates using lamb oocytes. Table 1.Effect of BCB1 concentration on embryo development of lamb oocytes The grant sponsor was the Spanish Ministry of Science and Innovation, Code: AGL2007-60227-CO2-01.
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Holton, Rebecca A., Abigail M. Harris, Barenya Mukerji, Tanu Singh, Ferdusy Dia, and Karen M. Berkowitz. "CHTF18 ensures the quantity and quality of the ovarian reserve†." Biology of Reproduction 103, no. 1 (March 27, 2020): 24–35. http://dx.doi.org/10.1093/biolre/ioaa036.
Full textAbstract:
Abstract The number and quality of oocytes, as well as the decline in both of these parameters with age, determines reproductive potential in women. However, the underlying mechanisms of this diminution are incompletely understood. Previously, we identified novel roles for CHTF18 (Chromosome Transmission Fidelity Factor 18), a component of the conserved Replication Factor C-like complex, in male fertility and gametogenesis. Currently, we reveal crucial roles for CHTF18 in female meiosis and oocyte development. Chtf18−/− female mice are subfertile and have fewer offspring beginning at 6 months of age. Consistent with age-dependent subfertility, Chtf18−/− ovaries contain fewer follicles at all stages of folliculogenesis than wild type ovaries, but the decreases are more significant at 3 and 6 months of age. By 6 months of age, both primordial and growing ovarian follicle pools are markedly reduced to near depletion. Chromosomal synapsis in Chtf18−/− oocytes is complete, but meiotic recombination is impaired resulting in persistent DNA double-strand breaks, fewer crossovers, and early homolog disjunction during meiosis I. Consistent with poor oocyte quality, the majority of Chtf18−/− oocytes fail to progress to metaphase II following meiotic resumption and a significant percentage of those that do progress are aneuploid. Collectively, our findings indicate critical functions for CHTF18 in ensuring both the quantity and quality of the mammalian oocyte pool.
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McLaughlin, Eileen A., and Skye C. McIver. "Awakening the oocyte: controlling primordial follicle development." REPRODUCTION 137, no. 1 (January 2009): 1–11. http://dx.doi.org/10.1530/rep-08-0118.
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Oocytes are sequestered in primordial follicles before birth and remain quiescent in the ovary, often for decades, until recruited into the growing pool throughout the reproductive years. Therefore, activation of follicle growth is a major biological checkpoint that controls female reproductive potential. However, we are only just beginning to elucidate the cellular mechanisms required for either maintenance of the quiescent primordial follicle pool or initiation of follicle growth. Understanding the intracellular signalling systems that control oocyte maintenance and activation has significant implications for improving female reproductive productivity and longevity in mammals, and has application in domestic animal husbandry, feral animal population control and infertility in women.
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Moniruzzaman, Mohammad, Kazuhiro Sakamaki, Yukiko Akazawa, and Takashi Miyano. "Oocyte growth and follicular development in KIT-deficient Fas-knockout mice." Reproduction 133, no. 1 (January 2007): 117–25. http://dx.doi.org/10.1530/rep-06-0161.
Full textAbstract:
In mammals, oocyte growth and follicular development are known to be regulated by KIT, a tyrosine kinase receptor. Fas is a member of the death receptor family inducing apoptosis. Here, we investigated germ cell survival, oocyte growth and follicular development in KIT-deficient (Wv/Wv:Fas+/+), Fas-deficient (+/+:Fas−/−), and both KIT- and Fas-deficient (Wv/Wv:Fas−/−) mice during fetal and postnatal periods. Further, the ovaries of these mice were transplanted in immunodeficient mice to compare oocyte growth and follicular development under a condition isolated from the extraovarian effects of KIT- and Fas-deficiency. Higher numbers of germ cells were found in the fetal and postnatal ovaries of Fas-deficient mice than in the same-aged wild-type mice. In KIT-deficient mice, ovaries at 13 dayspostcoitum(dpc) contained 1106±72 (n=3) germ cells, but the ovaries contained no oocytes after birth. Twenty-one days after transplantation of the ovaries at 13 dpc, no oocytes/germ cells were found. A higher number of germ cells (3843±108;n=3) were observed in the Wv/Wv:Fas−/−genotypes than in Wv/Wv:Fas+/+mice at 13 dpc. Furthermore, Wv/Wv:Fas−/−mice contained 528±91 (n=3) oocytes at 2 days, and follicles developed to the antral stage at 14 days of age. After transplantation of fetal and neonatal ovaries from Wv/Wv:Fas−/−mice, increased numbers of growing oocytes and developing follicles were obtained compared with those in 14-day old ovariesin vivo. These results show that oocytes grow and follicles develop without KIT signaling, although KIT might be essential for the survival of germ cells/oocytes in mice.
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Bellier, S., M. F. Dubois, E. Nishida, G. Almouzni, and O. Bensaude. "Phosphorylation of the RNA polymerase II largest subunit during Xenopus laevis oocyte maturation." Molecular and Cellular Biology 17, no. 3 (March 1997): 1434–40. http://dx.doi.org/10.1128/mcb.17.3.1434.
Full textAbstract:
Xenopus laevis oogenesis is characterized by an active transcription which ceases abruptly upon maturation. To survey changes in the characteristics of the transcriptional machinery which might contribute to this transcriptional arrest, the phosphorylation status of the RNA polymerase II largest subunit (RPB1 subunit) was analyzed during oocyte maturation. We found that the RPB1 subunit accumulates in large quantities from previtellogenic early diplotene oocytes up to fully grown oocytes. The C-terminal domain (CTD) of the RPB1 subunit was essentially hypophosphorylated in growing oocytes from Dumont stage IV to stage VI. Upon maturation, the proportion of hyperphosphorylated RPB1 subunits increased dramatically and abruptly. The hyperphosphorylated RPB1 subunits were dephosphorylated within 1 h after fertilization or heat shock of the matured oocytes. Extracts from metaphase II-arrested oocytes showed a much stronger CTD kinase activity than extracts from prophase stage VI oocytes. Most of this kinase activity was attributed to the activated Xp42 mitogen-activated protein (MAP) kinase, a MAP kinase of the ERK type. Making use of artificial maturation of the stage VI oocyte through microinjection of a recombinant stable cyclin B1, we observed a parallel activation of Xp42 MAP kinase and phosphorylation of RPB1. Both events required protein synthesis, which demonstrated that activation of p34(cdc2)off kinase was insufficient to phosphorylate RPB1 ex vivo and was consistent with a contribution of the Xp42 MAP kinase to RPB1 subunit phosphorylation. These results further support the possibility that the largest RNA polymerase II subunit is a substrate of the ERK-type MAP kinases during oocyte maturation, as previously proposed during stress or growth factor stimulation of mammalian cells.