Letteratura scientifica selezionata sul tema "Récepteur lectine"
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Articoli di riviste sul tema "Récepteur lectine"
Rinn, Michael. "L’humour pathétique de Romain Gary". Protée 37, n. 2 (30 ottobre 2009): 79–89. http://dx.doi.org/10.7202/038457ar.
Testo completoFrançois, Damien. "Montage, simultanéité et continuité dans Le Sursis de Sartre". Cinémas 8, n. 3 (31 ottobre 2007): 75–103. http://dx.doi.org/10.7202/024759ar.
Testo completoFaguy, Robert. "Pour un récepteur hautement résolu…". Protée 27, n. 1 (12 aprile 2005): 117–24. http://dx.doi.org/10.7202/030552ar.
Testo completoAngotako Mawanzo, Denise. "Collaboration entre école et parents dans la gestion de la scolarité des filles en République Démocratique du Congo : Dialogue asymétrique entre théorie et pratique". Encounters in Theory and History of Education 23 (19 dicembre 2022): 200–222. http://dx.doi.org/10.24908/encounters.v23i0.16172.
Testo completoSeoane, Annabelle, e Montserrat López Díaz. "Quand l’énonciation publicitaire construit de la connivence avec de l’humour". Semiotica, 20 marzo 2023. http://dx.doi.org/10.1515/sem-2022-0048.
Testo completoMurphy, Amanda. "Autotraduction et intermédialité chez Raymond Federman". Nouveaux cahiers de Marge, n. 6 (10 marzo 2023). http://dx.doi.org/10.35562/marge.510.
Testo completoÉthier, Marc-André, e David Lefrançois. "QUELLE LECTURE LES HISTORIENS D’ASSASSINS’ CREED FONT-ILS DE CE JEU VIDÉO D’HISTOIRE ?" Revue de recherches en littératie médiatique multimodale 7 (13 giugno 2018). http://dx.doi.org/10.7202/1048365ar.
Testo completoROUMANOS, Rayya. "Quand quantifier sert d’abord à qualifier". Interfaces numériques 9, n. 3 (24 dicembre 2020). http://dx.doi.org/10.25965/interfaces-numeriques.4420.
Testo completoTesi sul tema "Récepteur lectine"
Gouget, Anne. "Etude fonctionnelle d'un récepteur lectine kinase (LecRK79) potentiel partenaire dans les contacts paroi-plasmalemme chez Arabidopsis thaliana". Toulouse 3, 2006. http://www.theses.fr/2006TOU30285.
Testo completoPlasma membrane – cell wall contacts in A. Thaliana are disrupted by addition of RGD (Arg-Gly-Asp) containing peptides or proteins. Here we show that the extracellular legume-lectin domain of LecRK79, a receptor kinase, is able to interact with RGD- or RGE-containing peptides or proteins: the RGD motif of IPI-O, a protein from Phytophthora infestans, is also recognized. A strong expression of LecRK79 was observed in roots: apex and stele of apical and lateral roots, primordia, adventive roots. LecRK79 knock-out plants revealed that the endodermis layer splits into two rows of cells starting at the apex of apical and lateral roots. The induction of LecRK79 expression was detected in response to avirulent strains of Pseudomonas syringae pv. Tomato. Altogether, our results indicate that LecRK79 is able to mediate protein-protein interactions to possibly establish plasma membrane – cell wall contacts. They suggest LecRK79 is involved in root development and in plant-pathogen interactions. .
Sutkeviciute, Ieva. "Développement de glycomimétiques antagonistes du récepteur lectine de type C, DC-SIGN : une nouvelle stratégie préventive anti-HIV". Phd thesis, Université de Grenoble, 2012. http://tel.archives-ouvertes.fr/tel-00819832.
Testo completoBellande, Kévin. "Étude fonctionnelle d'un récepteur lectine kinase, LecRK-I.9 : un contrôle de la dynamique des parois chez Arabidopsis thaliana". Thesis, Toulouse 3, 2018. http://www.theses.fr/2018TOU30213.
Testo completoCell walls are complex structures of cellulose, hemicelluloses, pectins and proteins secreted by the cell, so setting up a rigid and continuous structure within the tissue of plants. Cell walls are dynamic structures that are continuously modified in the course of development and in response to environmental cues: cell wall proteins play a primarily role by assembling and remodelling polysaccharides, and by participating to cell signalling. In particular, cell walls are designed to handle turgor pressure, the driving force of cell elongation: the loosening of polysaccharide networks, the addition of new components and stiffening should be tightly coordinated to maintain the cell wall structures. A sensory complex to monitor the cell wall status should provide this coordination in an effective manner. We are interested in an Arabidopsis thaliana lectin receptor kinase (LecRK-I.9) with a Legume lectin-type extracellular domain. It is hypothesized that LecRK-I.9 is part of a cell wall surveillance system. The questions asked in this work are: (i) in which developmental processes is LecRK-I.9 involved? (ii) what are the regulations targeted by LecRK-I.9? (iii) what are the ligands for LecRK-I.9? LecRK-I.9 expression was primarily found in root tissues and, LecRK-I.9 was shown to be involved in the processes of adventitious and lateral root initiation and emergence. Both processes require large cell wall remodelling. LecRK-I.9 was defined as a negative regulator of the processes. Indeed, the cell wall peptides CEP are early regulators of lateral root initiation: genes encoding CEP were up-regulated in lecrk-I.9 seedlings. In the same way, genes encoding cell wall remodelling enzymes working together for cell wall loosening are also up-regulated. Finally, lecrk-I.9 seedlings showed modified cell walls in their polysaccharide content. Cellulose biosynthesis inhibition was employed to impair the cell wall structures. In particular, jasmonic acid (JA)- and reactive oxygen species (ROS)- mediated signalling may regulate ectopic lignin deposits in root apices induced by cell wall damage. LecRK-I.9 was shown to control the JA levels during the process of ectopic lignin deposition. Moreover, through JA tuning, LecRK-I.9 regulates the expression of genes encoding cell wall proteins and peptides, but also proteins for detoxifying ROS. Our results suggest that LecRK-I.9 regulates cell wall dynamics in roots by targeting JA levels, ROS homeostasis and remodelling enzymes for polysaccharides. Future prospects include relationships between cell wall composition and mineral nutrition for iron. Indeed, lecrk-I.9 seedlings showed an enhanced accumulation of iron in cell walls. Finally, LecRK-I.9 was found to be associated to Hechtian strands particularly in the cell wall anchor points. Interactions between lectin domains and cell wall polysaccharides are currently searched using glycoarrays for cell wall polysaccharides: LecRK-I.9 could be the linker to establish a physical connection between cell wall and plasma membrane
Jacquemin, Godefroy. "Implication des monocytes-macrophages dans le développement de l'inflammation colique et de la carcinose péritonéale d'origine colorectale : rôle des récepteurs lectine de type-c et des récepteurs nucléaires PPARy et LRH-1". Thesis, Toulouse 3, 2021. http://www.theses.fr/2021TOU30277.
Testo completoInvolvement of monocytes/macrophages in the development of colonic inflammation and peritoneal carcinomatosis of colorectal origin: Role of C-type lectin receptors and nuclear receptors PPARγ and LRH-1.Monocytes and macrophages, key cells of innate immunity, express a large panel of membrane and nuclear receptors allowing them to modulate their phenotypes and functions in response to environmental stimuli. Due to this cellular adaptability, monocytes/macrophages control the innate and adaptive immune responses. Thus, these cells play a central role in the development of many pathologies, and consequently, represent relevant therapeutic targets. In this work, we first focused on the role of macrophage C-type lectin receptors in the control of colonic inflammation. We show, using two mouse models specifically invalidated for Dectin-1 and mannose receptor (MR) in the myeloid lineage, that Dectin-1 participates in the development of intestinal inflammation, whereas MR prevents it. Indeed, in a DSS (Dextran Sodium Sulfate)-induced colitis model, the Dectin-1 receptor on macrophages induces an increase in the recruitment of inflammatory monocytes in the colon in a CCL2-dependent manner. We also demonstrate that Dectin-1 is involved in the polarization of colonic macrophages towards a pro-inflammatory phenotype. Indeed, Dectin-1 promotes the synthesis of leukotriene B4 (LTB4) which, in turn, induces the secretion of interleukin-1β (IL-1β). These results highlight the involvement of the Dectin-1/CCL2/LTB4/IL-1β axis in the development of colonic inflammation and conversely assign a protective role to MR in this context. These data were correlated with an increase in Dectin-1 expression and a decrease in MR expression in the colon of inflammatory bowel disease (IBD) patients. This work is published in Cell Reports 2020: Divergent Roles for Macrophage C-type Lectin Receptors, Dectin-1 and Mannose Receptors, in the Intestinal Inflammatory Response. Cell Rep. 30, 4386-4398.e5In a second step, we investigated the roles of the nuclear receptors PPARγ (peroxisome proliferator-activated receptor) and LRH-1 (Liver receptor homolog-1) of macrophages in the development of peritoneal carcinomatosis of colorectal origin (PCR). We have demonstrated for the first time, using two mouse models deleted for LRH-1 or PPARγ specifically in the myeloid lineage, that these nuclear receptors play a major role in the differentiation of myeloid precursors into myeloid-derived suppressor cells (MDSC) during PCR. Indeed, the absence of LRH-1 and PPARγ in myeloid cells inhibits MDSC differentiation and promotes the reactivation of the anti-tumor immune system. Associated with this immune reactivation, the mice show a strong decrease in tumor burden, identifying LRH-1 and PPARγ as novel therapeutic targets capable of removing immunosuppression. Using an in vitro model of MDSC differentiation, we demonstrated the interdependence of LRH-1 and PPARγ in MDSC differentiation via the activation of the LRH-1/15-HETE/PPARγ axis. In parallel, we demonstrated the ability of an LRH-1 inverse agonist (ML-180) to inhibit PCR development, MDSC differentiation and colon tumor cell proliferation. This work identifies the nuclear receptor LRH-1 as a key element in PCR progression and opens new therapeutic perspectives allowing both to remove immunosuppression by blocking MDSC differentiation and to directly inhibit colon tumor cell proliferation. This work is in progress
Blot, Lauriane. "Rôle de CLEC12B dans l'immunité de la peau". Electronic Thesis or Diss., Université Côte d'Azur, 2023. https://intranet-theses.unice.fr/2023COAZ6034.
Testo completoCLEC12B was first identified as an inhibitory receptor on myeloid cells that counteracts NK cells-mediated cytotoxicity. CLEC12B is a C-type Lectin Receptor (CLR) which possesses an ITIM domain, but ligand and downstream signaling are largely unknown. Over the past 30 years, an antigen-presenting function of melanocytes has emerged due to their dendritic nature, their strategic position in the skin and their phagocytic capacity. In a vitiligo context, our team has shown that CXCR3B activation, the receptor for immune chemokines CXCL9, CXCL10 and CXCL11, induces apoptosis of cultured human melanocytes. The remaining melanocytes, activated by the IFNγ production, express co-stimulatory markers which trigger T cell proliferation and subsequent anti-melanocytic immunity. Recent results from our team have shown that CLEC12B is mainly expressed in human melanocytes and plays an important role in the regulation of skin pigmentation, but also in melanoma proliferation.In this project, we set out to determine the role of CLEC12B in skin immunity using primary human melanocytes from healthy donors. We demonstrate that CLEC12B is critical in production of IFNγ and innate chemokines CXCL9, CXCL10 and CXCL11 by melanocytes, as shown by our regulation of CLEC12B expression using silencing or overexpression techniques. This regulation was driven by the phosphorylation of CLEC12B's ITIM domain as shown using CLEC12B mutated form of the gene. Furthermore, not only can CLEC12B drive melanocyte chemokine production, but it is also capable of directly increase chemoattraction of immune cells in the skin and therefore trigger a long-term adaptative immunity. From a signaling point of view, we show that CLEC12B modulates IFNγ signaling pathway through the STAT1/IRF1 axis. Moreover, CLEC12B potentiates the effect of IFNγ in primed melanocytes, thus inducing a larger production of innate chemokines and subsequent greater chemoattraction of immune cells. In addition, we have demonstrated that CLEC12B directly interacts with Staphylococcus aureus and Escherichia coli and modulates an innate immune response against these opportunistic bacteria found on the skin through the STAT1/IRF1/CXCL9 axis. Finally, we have shown that CLEC12B senses motifs present on melanocytes, fibroblasts, and both pro- and anti-inflammatory macrophages, but its exact ligand(s) still remains to be identified. Together, these results demonstrate that CLEC12B is an important player in innate skin immunity by modulating the production of IFNγ and immune chemokines, and in adaptative immunity by modulating the migration ability of immune cells through the phosphorylation of its ITIM domain. This mechanism is of great interest as IFNγ and cellular recruitment are key initial steps involved in inflammation of many skin pathologies, making this receptor an interesting therapeutic target for the treatment of infectious diseases, inflammatory and pigmentary skin disorders, as well as cancer; all which may be able to be directly immuneregulated by CLEC12B on melanocytes. This exciting novel prospect remains to be tested in future studies
Cedile, Oriane. "Expression physiologique et pathologique dans le SNC adulte de Rae-1, ligand du récepteur activateur NKG2D exprimé par les cellules NK potentiellement régulatrices dans l'EAE". Aix-Marseille 2, 2009. http://www.theses.fr/2009AIX20683.
Testo completoBulteau, François. "Ciblage in vivo des tumeurs via l'antigène Tn : Développement d'un cluster de Macrophage Galactose Lectine Human Macrophage Galactose-Type Lectin (MGL) Recognizes the Outer Core of Escherichia coli Lipooligosaccharide". Thesis, Université Grenoble Alpes, 2020. http://www.theses.fr/2020GRALV048.
Testo completoAll cells, whether prokaryotic or eukaryotic, have a rich and diversified external glycosylation layer, forming the immediate dominant face in relation to their environment. They result from complex enzymatic processes linking sugars to each other and to proteins or lipids. Variations of the "glycome" can appear in certain pathologies. Cancers are the most frequent pathologies with abnormalities in these glycosylations. These alterations are almost systematic on the surface of cancer cells. Among them, the Thomsen-new antigen (Tn), an N-acetylgalactosamine (GalNAc) on a serine or threonine, is strongly expressed in 90% of mammary carcinomas as well as in cancers of the bladder, cervix, ovary, colon, stomach and prostate. The ubiquitous presence of the Tn antigen in many cancers, combined with its absence in healthy cells, makes it a target of choice for targeted therapy or synthetic anti-tumor vaccines. No antibody targeting the Tn antigen is currently available because of the difficulty in developing an antibody with such specificity. Thus, we were interested in an alternative targeting strategy, based on the use of a molecule capable of recognizing the Tn antigen. C-Type lectins are a family of proteins capable of specifically and reversibly binding to certain carbohydrates in the presence of calcium. Macrophage galactose lectin (MGL) is a C-type lectin with a high affinity for GalNac and its derivatives such as the Tn antigen. This work consisted, initially, in the use of a soluble recombinant form of MGL to validate the potential of this tool for the targeting of cancer cells. The different experiments, in vitro and in vivo, involving MGL, demonstrated the latter's ability to specifically target human tumors via the Tn antigen. The extracellular portion of MGL is therefore a very good vector candidate for the diagnosis and imaging of human tumors and potentially for drug delivery. In a second step, various strategies for the development of a bifunctional tool exploiting this lectin were explored. The goal was to create a peptide platform that could be functionalized on one hand with several lectin domains, in order to control recognition affinity, and on the other hand with functional groups that could be variable according to the application (diagnostic, therapeutic, ...). The different coupling strategies employed allowed us to attach several lectin CRDs to a peptide support, while preserving the three-dimensional and functional state of the proteins. The characterizations carried out show a significant increase in affinity directly related to the number of lectins added to the platform. This work paves the way to new customizable sugar-targeting systems
Gohier, Arnaud. "Facettes de modélisation moléculaire, application à : étude des interactions lectines de légumineuses-glucides, méthodologie de construction des récepteurs couplés aux protéines G : études des interactions hydrophiles/hydrophobes des hélices de la bactériorhodopsine : étude structure-activité sur des ligands du récepteur kappa opiacé". Grenoble 1, 1999. http://www.theses.fr/1999GRE10183.
Testo completoMusset, Murielle. "Nature des récepteurs (intégrines et lectines) et des signaux de transduction impliqués dans l'adhérence des cellules Hep G2". Paris 5, 1997. http://www.theses.fr/1997PA05S018.
Testo completoNiveau, Camille. "Impact des glycans tumoraux sur les propriétés phénotypiques, fonctionnelles et métaboliques des cellules dendritiques (cDC2, pDC, cDC1) humaines en contexte de mélanome". Electronic Thesis or Diss., Université Grenoble Alpes, 2024. http://www.theses.fr/2024GRALV022.
Testo completoDendritic cells (DCs), mostly consisting of BDCA1+ cDC2s, BDCA3+ cDC1s, and BDCA2+ pDCs are the conductors of immune responses. Their plasticity plays a crucial role in the orientation of immune responses, especially in the context of cancer. However, escape from immune surveillance is a key step for tumor development. In the context of melanoma, tumor-infiltrating and circulating DCs harbor an altered functionality, negatively linked with the clinical outcome of patients. The mechanisms employed by melanoma to modulate immunity are only partially deciphered. Immuno-metabolism emerges as a decisive factor for the orientation of immune responses in cancer. In parallel, tumor cells display aberrant glycans on surface protein and lipids that can be recognized by lectin receptors, expressed by DCs. Among them, C-type lectin receptors (CLRs) are crucial for DCs’ plasticity and the modeling of immune responses, and their expression is perturbed on DCs from melanoma patients. In addition, the tumor cells’ glycocode correlates with DC function and clinical outcome of patients. Nevertheless, influence of the various glycosylation motifs on immunity remains unknown in melanoma.We investigated the interactions of DC subsets with six glycans present on the surface of melanoma tumor cells (Gal, Man, GalNAc, s-Tn, Fuc, GlcNAc). We analyzed the effect of these glycans on the phenotype (activation status, immune checkpoints (ICP)), and the function (cytokines/chemokines) of DCs. In order to better understand DCs dysregulation in melanoma, we explored their metabolism among patients thanks to the SCENITH technique, and analyzed the correlation with their phenotype, their function and the clinical outcome of patients. We also assessed the impact of tumor cells and their glycocode on DCs’ metabolism, and we evaluated the possibility to modulate metabolic pathways with the aim of reverting the impact of glycans on DCs’ function.DCs are able to interact with and to internalize the studied glycans, at different intensities according to the DC subset and to the nature of the glycan. Fucose induces a remodeling of ICP expression and increases activation molecules, in addition to trigger the secretion of pro-inflammatory and pro-tumoral cytokines/chemokines. After activation, DC’s secretome is completely reshaped by glycan exposure, particularly with fucose. In parallel, we highlight major metabolic disturbances in DCs from patients’ blood and tumor compared to healthy donors. The expression of activation markers and ICPs by DCs as well as the clinical outcome of patients are linked with the metabolic profile of DCs. Moreover, DCs’ metabolism in co-culture with melanoma cells correlates with the expression of particular tumor glycans. Coherently, the studied glycans directly modulate DCs’ metabolism in addition to their phenotype and function. The blockade of the MCT-1 lactate transporter allows restoring DCs’ function altered by glycans.This study unveils the importance of glycan motifs in the modulation and regulation of DCs. The glycan-lectin-DC axis emerges as a new immune checkpoint in melanoma, linked with metabolism, and which could enable the restoration of anti-tumor immunity by preventing DC-glycan interactions or by acting on their metabolism. This axis opens the way for the development of new therapeutic strategies with the aim of improving clinical success for melanoma patients
Capitoli di libri sul tema "Récepteur lectine"
JÉGOU, Laurent. "La cartographie comme moyen de communication : réflexions autour de modèles". In Communication cartographique, 41–71. ISTE Group, 2022. http://dx.doi.org/10.51926/iste.9091.ch2.
Testo completoFAYE, Babacar. "Plurilinguisme, « Sui generisité » et stratégies de médiation dans l’écriture francophone". In Médier entre langues, cultures et identités : enjeux, outils, stratégies, 63–70. Editions des archives contemporaines, 2022. http://dx.doi.org/10.17184/eac.5503.
Testo completo