Global ETD Search

121	Caractérisation du rôle de SCL dans la mégacaryopoïèse et la thrombopoïèse chez les souris transgéniques Sedzro, Josepha-Clara 12 1900 (has links) No description available. Voies de signalisation SCL GATA-1 Facteur de transcription Cellules hématopoïétiques Mégacaryocytes Plaquettes Transcription factor Hematopoietic cells Megakaryocytes Platelets Signaling pathway
122	Identificação de componentes da via de sinalização mediada pela proteína NIK, um receptor que interage com a proteína NSP de geminivírus / Identification of components of the signaling pathway mediated by NIK protein, a receptor that interages with the NSP protein of geminivirus Rocha, Carolina da Silva 01 August 2007 (has links) Made available in DSpace on 2015-03-26T13:42:37Z (GMT). No. of bitstreams: 1 texto completo.pdf: 1636951 bytes, checksum: 5c4c3aea8b56b9b0913479b27b012cea (MD5) Previous issue date: 2007-08-01 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Proteins of the family of LRR-RLKs (receptor-like-kinases with leucine-rich repeats) have a conceptual relevance in signaling events but in plants information regarding function is limited to a few members of this family. The receptors NIK1, NIK2 and NIK3 of Arabidopsis thaliana belong to the sub-family LRRII-RLK and were initially identified by their capacity to interact with the geminivirus NSP protein. In response to an unknown stimulus, NSP-interacting kinases (NIKs) are activated after the formation of dimmers and intermolecular autophosphorylation. The inhibition of autophosphorylation of NIK by NSP and the activation of NIK genes increase the susceptibility to viral infection, suggesting that this protein is involved in a defense pathway against geminivirus infection. The downstream components of this pathway, mediated by the protein NIK, have yet to be identified. In the present study, the biochemical and functional characterization of two ribosomal proteins, L10 and L18 were described, these being capable of interacting with the protein NIK via the yeast two-hybrid system. In vitro studies demonstrated that the protein NIK is capable of phosphorylating the protein L10, but not L18. Of the members of the LRRIIRLK family, the protein NIK2 phosphorylates L10, while NIK3 presents a low capacity for phosphorylation of the substrate. However, the development protein SERK1 does not use L10 as a substrate. Assays of transient expression in tobacco plants, revealed that the L18 protein is located in the cytoplasm, as well as around the nucleus and the nucleoli of some cells. In turn, in 97% of the cells, L10 was localized only in the cytoplasm, although it was also found in the nucleus, in approximately 3% of the observed cells. The transient expression of NIK1 and NIK2 redirects the L10 protein to the nucleus in approximately 30% of the cells. In contrast, NIK3 does not relocalize the L10 protein to the nucleus, and L18 does not change its localization in the presence of the NIKs. In plants infected with TGMV, a change only in the cytoplasmic localization of L10 was observed, accumulating in points of the cytoplasm when not co-localized with NIK. To prove genetically the interactions of L10-NIK and L18-NIK, null alleles for the genes L10 and L18 de Arabidopsis, containing T-DNA insertion, were obtained and inoculated with CaLCuV. The inactivation of the genes L10 and L18 restored the elevated susceptibility phenotype of nik1 and the knockout plants, principally l10, presented severe symptoms and high rates of infection when compared with the wild columbia plants. The results of this work are consistent with a model that places the ribosomal proteins L10 and L18 as functional components of the defense signaling pathway mediated by the protein NIK, L10 being a component immediately downstream of the transmembrane receptor. / As proteínas da família das LRR-RLKs (receptor-like-quinases com repetições ricas em leucina) possuem uma relevância conceitual em eventos de sinalização mas, em plantas, a informação funcional ainda é restrita a alguns membros desta família. Os receptores NIK1, NIK2 e NIK3 de Arabidopsis thaliana pertecem à sub-familia LRRII-RLK e foram inicialmente identificados pela sua capacidade de interagir com a proteína NSP de geminivírus. Em resposta a um estímulo desconhecido, NSP-interacting kinases (NIKs) são ativadas após a formação de dímeros e autofosforilação intermolecular. A inibição da autofosforilação de NIK por NSP e a inativação de genes NIKs aumenta a suscetibilidade à infecção viral, sugerindo que esta proteína estaria envolvida em uma via de defesa contra a infecção por geminivírus. Os componentes downstream dessa via de sinalização, mediada pela proteína NIK, ainda não foram identificados. No presente estudo foi descrita a caracterização bioquímica e funcional de duas proteínas ribossomais, L10 e L18, as quais foram capazes de interagir com a proteína NIK através do sistema de duplo híbrido de leveduras. Estudos in vitro demonstraram que a proteína NIK é capaz de fosforilar a proteína L10, mas não L18. Entre os membros da família LRRII-RLK, a proteína NIK2 fosforila L10, enquanto NIK3 apresenta uma baixa capacidade de fosforilação do substrato. No entanto, a proteína de desenvolvimento SERK1 não utiliza L10 como substrato. Ensaios de expressão transiente, em plantas de tabaco, revelaram que a proteína L18 está localizada no citoplasma, bem como ao redor do núcleo e no nucléolo de algumas células. Por sua vez, em 97% das células, L10 foi localizada apenas no citoplasma, embora tenha sido encontrada no núcleo, em aproximadamente 3% das células observadas. A expressão transiente de NIK1 e NIK2 redireciona a proteína L10 para o núcleo em aproximadamente 30% das células. Em contraste, NIK3 não relocaliza a proteína L10 para o núcleo, e L18 não muda sua localização na presença das NIKs. Em plantas infectadas com TGMV, observou-se mudança apenas na localização citoplasmática de L10, acumulando-se em pontos do citoplasma quando não colocalizada com NIK. Para se comprovar geneticamente as interações de L10-NIK e L18- NIK, alelos nulos para os genes L10 e L18 de Arabidopsis, contendo inserção de T-DNA, foram obtidos e inoculados com o CaLCuV. A inativação dos genes L10 e L18 recapitulou o fenótipo de suscetibilidade aumentada de nik1 e as plantas knockout, principalmente l10, apresentaram sintomas severos e taxa de infecção alta quanto comparados com as plantas selvagens columbia. Os resultados deste trabalho são consistentes com um modelo que posiciona as proteínas ribossomais L10 e L18 como componentes funcionais da via de sinalização de defesa mediada pela proteína NIK, sendo L10 um componente imediatamente downstream ao receptor transmembrana. Via de sinalização Proteína quinase L10 (QM) L18 Signaling pathway Kinases protein L10 (QM) L18
123	Etude des étapes précoces de la mécanoperception chez le peuplier / Study of the early stages of mechanoperception in poplar Gourcilleau, Delphine 11 February 2011 (has links) Afin de survivre dans un environnement fluctuant, les plantes ont développé la capacité de percevoir et de répondre à des stimuli externes divers et parfois extrêmes. Les sollicitations mécaniques jouent un rôle important au cours du développement des plantes et un nombre croissant d’études s’intéresse à la mécanoperception. Le dessin de la voie de signalisation entre la perception du signal et la régulation des gènes précoces reste incertain. Un modèle de la mécanoperception, proposant que la variable mécanoperçue soit la déformation de la membrane, a été vérifié à l’échelle de la plante entière mais doit être validé au niveau cellulaire. Pour cela, et afin d’identifier les acteurs moléculaires précoces de la réponse à la sollicitation mécanique, nous avons analysé la régulation du gène mécanosensible PtaZFP2 sur cultures cellulaires de peuplier. Le gène PtaZFP2 appartient à la famille multigénique des Q-type C2H2-ZFPs codant des facteurs de transcription putatifs et comprenant 16 membres chez le peuplier. Une analyse phylogénétique et l’analyse de l’expression de ces gènes en réponse à différents stress abiotiques ont montré l’existence de deux groupes phylogénétiques. Ils se différencient par des doigts de zinc caractéristiques et deux nouveaux motifs protéiques (MALEAL et LVDCHY) spécifiques à chacun des groupes. Cette étude nous a également permis d’identifier un autre gène, PtaZFP1, proche phylogénétiquement de PtaZFP2 et fortement induit par une flexion. Après avoir mis au point un système de sollicitation mécanique sur cultures cellulaires, nous avons démontré l’implication du calcium, des calmodulines, des jasmonates et du H2O2 dans l’induction précoce du gène PtaZFP2 par un signal mécanique. Nos travaux suggèrent également l’existence d’une interaction entre la NADPH oxydase (enzyme impliquée dans la production d’EAO) et les calmodulines en amont de PtaZFP2. Finalement, des résultats préliminaires suggèrent une localisation nucléaire de cette protéine et une accumulation transitoire au sein des tiges 2h après une flexion. Les outils moléculaires produits au cours de ce travail (anticorps, protéines recombinantes) permettront de comprendre le rôle de PtaZFP2 dans cette voie de signalisation. / The ability of plants to perceive and respond to various and even extreme environmental stimuli is crucial for their survival in a fluctuant environment. Mechanical solicitations play a key role during plant development and an increasing number of studies are dedicated to mechanosensing. The way how plants sense mechanical signals and bring about the changes in gene expression is still unknown. Recently, a model of mechanosensing, suggesting that the physical variable perceived by cells is the plasma membrane strain, has been confirmed at the whole plant scale but remains to be validated at the cellular level. In this aim and to identify the molecular components involved in the early steps of the mechanical signaling pathway, the regulation of the mechanosensitive gene PtaZFP2 was analyzed in poplar cells cultures. The mechanosensitive PtaZFP2 gene belongs to the multigenic Q -type C2H2 -ZFPs family encoding putative transcription factors, consisting of 16 members in poplar. A phylogenetic study and the expression analysis of several of these genes in response to abiotic stresses, allowed us to detect two phylogenetic groups. These two groups are distinguished essentially on their different signatures of their two zinc finger domains and on the two additional conserved motifs MALEAL and LVDCHY, specific to each phylogenetic group. Another gene of the Q -type C2H2 -ZFP family, PtaZFP1, related to PtaZFP2, was shown to be regulated by bending. After several adjustments to apply a mechanical solicitation to cells cultures, such treatments revealed the involvement of calcium, calmodulins, jasmonic acid and H2O2 in the rapid induction of PtaZFP2 gene expression in response to mechanical stress. Furthermore, our data showed an interaction between an NADPH oxidase enzyme (involved in ROS production) and calmodulins upstream of PtaZFP2. Finally, preliminary results suggested a nuclear localization of PtaZFP2 and a transient accumulation of this protein in the stem 2 hours after bending. The molecular tools that have been produced during this work (antibody, recombinant protein) will be used to study the role of PtaZFP2 in the mechanical signaling pathway. Populus Sollicitation mécanique C2H2-ZFPs Facteur de transcription Voie de signalisation Calcium H2O2 Populus Mechanical solicitation C2H2 -ZFPs Transcription factor Signaling pathway Calcium H2O2
124	Papel do adaptador indutor de Interferon-β contendo domínio TIR (TRIF) na resistência de camundongos a infecção por Neospora caninum Miranda, Vanessa dos Santos 19 February 2016 (has links) Fundação de Amparo a Pesquisa do Estado de Minas Gerais / Neospora caninum is an intracellular parasite that has the dog as its definitive host and other mammals, especially cattle, as intermediate hosts. Economically, neosporosis is an important disease in Veterinary medicine due to the induction of relevant clinical signs, as abortions in cattle and neuromuscular paralysis in dogs. The aim of this study was to evaluate the role of the TLR adaptor protein TRIF in the resistance against N. caninum infection. For this, in vitro experiments with bone marrow derived macrophages (BMDMs) from C57BL/6 wild-type (WT) and TRIF knockout (TRIF-/-) mice, stimulated by tachyzoites and in vivo infections, were performed in order to investigate the production of cytokines and antibodies, cellular and tissue parasitism, histological changes during different phases of infection and survival analysis. We observed that TRIF-/- BMDMs presented notable defects in inflammatory cytokine production in relation to WT macrophages. Additionally, we found that the concentration of NO, IL-12p40, IFN-y and TNF were decreased in peritoneal fluids and lungs of TRIF-/- mice, while IL-2, IFN-γ, TNF and IL-17 were reduced in sera of these animals compared to WT mice. Higher parasite burden was observed in peritoneal cells, lungs and brain during the acute and chronic phases of infection, which were associated with inflammatory changes in the analyzed tissues, while TRIF-/- mice survival rate decreased 2-fold compared to WT. In conclusion, our results show that TRIF is required for resistance against the infection induced by N. caninum, regulating the production of key Th1 cytokines and participating in the control of the tissue parasitism and inflammatory lesions induced against the parasite. / Neospora caninum é um parasito intracelular que tem como hospedeiro definitivo o cão e outros mamíferos, especialmente bovinos, como hospedeiros intermediários. Economicamente, a neosporose é uma doença de grande importância na medicina veterinária por induzir relevantes sinais clínicos, como abortos em bovinos e paralisia neuromuscular em cães. O objetivo deste estudo foi avaliar o papel da molécula adaptadora TRIF da via de sinalização dos TLRs na resistência contra a infecção por N. caninum. Para isso, experimentos in vitro com macrófagos derivados de medula óssea (BMDMs) obtidos de camundongos do tipo selvagem (WT) e TRIF knockout (TRIF-/-) estimulados com taquizoítos e infecções in vivo foram realizadas a fim de se investigar a produção de citocinas e anticorpos, parasitismo celular e tecidual, alterações histológicas durante diferentes fases da infecção e análise de sobrevida. Nós observamos que BMDMs TRIF-/- apresentaram reduções significativas na produção de citocinas inflamatórias em relação a macrófagos WT. Adicionalmente, foi visto que as concentrações de NO, IL-12p40, IFN- e TNF foram diminuídas no lavado peritoneal e nos pulmões de camundongos TRIF-/-, enquanto que IL-2, IFN-γ, TNF e IL-17 foram reduzidas no soro desses animais em comparação aos WT. Alta carga parasitária foi encontrada nas células peritoneais, pulmões e cérebro durante as fases aguda e crônica da infecção, associada com alterações teciduais inflamatórias significativas nos pulmões. Além disso, camundongos TRIF-/- tiveram uma taxa de sobrevida 2 vezes menor quando comparada aos animais WT. Concluindo, nossos resultados mostram que TRIF é requerido para a resistência contra a infecção induzida por N. caninum, regulando a produção de citocinas chave do perfil Th1 de resposta imune e participando no controle do parasitismo tecidual e das lesões inflamatórias oriundas desta infecção. / Mestre em Imunologia e Parasitologia Aplicadas Imunologia Neospora Imunidade Receptores de células TRIF Resposta imune inata TLRs Via de sinalização Neospora caninum Innate immune response Signaling pathway
125	Development of a screening assay for inhibitors of inflammation useful against pancreatic cancer Ghafoory, Shima January 2009 (has links) Pancreatic cancer is the fourth most lethal cancer and ranks as the eighth most commonly diagnosed cancer worldwide. This is due to its rapid proliferation, strong metastatic potential and its delayed detection. One major risk factor for developing pancreatic cancer is the aggressive inflammatory disease chronic pancreatitis. Chronic inflammation frequently precedes the development of certain pancreatic cancers. Inflammation is a protective and necessary process by which the body can alert the immune system of the existence of a wound or infection and mount an immune response to remove the harmful stimuli and start wound healing. The cross-talking of cells of the immune system and infected cells happens through cytokines, soluble proteins that activate and recruit other immune cells to increase the system’s response to the pathogen. Failure to resolve the injury can result in persistent cytokine production that in turn allows a cell that is damaged or altered to survive when in normal conditions it would be killed. Inflammation is thought to create a microenvironment that facilitates the initiation and/or growth of pancreatic cancer cells. Cytokines use two important kinases for their signaling: Janus Kinases (JAKs) and Signal Transducers and Activators of Transcription (STATs). The JAKs are activated upon the binding of cytokines to their corresponding receptors. When activated, the JAKs activate STATs through tyrosine phosphorylation. The STATs transduce signals to the nucleus of the cells to induce expression of critical genes essential in normal physiological cellular events such as differentiation, proliferation, cell survival, apoptosis and angiogenesis. STAT3 (a member of the STAT family) is constitutively activated in some pancreatic cancers, promoting cell cycle progression, cellular transformations and preventing apoptosis. Therefore, STAT3 is a promising target for cancer treatment. Novel therapies that inhibit STAT3 activity in cancers are urgently needed. Natural products are a very good resource for the discovery of new drugs against pancreatic cancer. Covering more than 70% of the Earths surface, The Ocean is an excellent source of bioactive natural products. Harbor Branch Oceanographic Institute’s Center for Marine Biomedical and Biotechnology Research (HBOI-CMBBR) situated in Florida, aims to find new marine natural products useful in disease prevention and drug therapy. Their current focus is to look for novel treatments for preventing both the formation of new pancreatic tumors and the metastasis of existing tumors. The hypothesis of this degree project was that novel inhibitors of STAT3 useful in the treatment of pancreatitis and/or pancreatic cancer could be found from marine-natural products. The first specific aim of this degree project was to set up an assay to identify bioactive marine natural products as inhibitors of inflammation. Furthermore the assay was validated using a commercially available inhibitor of inflammation (Cucurbitacin I). The last aim was to further validate the assay by screening pure compounds and peak library material from the HBOI marine specimen collection. At the end of the experimentation time, the assay still was not set-up as there were difficulties in proper cell culture techniques and the cell line did not respond as advertised. While the results were not as expected, the work performed resulted in familiarization with research laboratory practices and increased laboratory skills. Moreover, the results from the assays point to future directions to accomplish this project. / Development of a screening assay for inhibitors of inflammation useful against pancreatic cancer Pancreatic Cancer Chronic Inflammation JAK/STAT Signaling Pathway STAT3 Marine Natural Products Medical and Health Sciences Medicin och hälsovetenskap Cell and Molecular Biology Cell- och molekylärbiologi
126	Die Rolle desTGF-ß-Rezeptors Typ I bei der Überexpression von Smurf1 und Smurf2 in chondrogenen Progenitorzellen / The role of the TGF-ß type I receptor in the over-expression of Smurf1 and Smurf2 in chondrogenic progenitor cells Blume, Agnes Theresa 23 October 2017 (has links) No description available. 610 TGF-ß-Signalweg Osteoarthrose TGF-ß-Typ I-Rezeptor Smurf TGF-ß signaling pathway osteoarthritis TGF-ß type I receptor Smurf Medizin (PPN619874732)
127	BMP signaling controls postnatal muscle development / La signalisation BMP contrôle le développement musculaire postnatal Stantzou, Amalia 29 September 2015 (has links) Les "Bone Morphogenetic Proteins" (BMPs) jouent un rôle clef dans la régulation de cellules précurseurs du muscle prénatal et de cellules souches musculaires adultes dénommées "cellules satellites". Les objectifs principaux de ma thèse étaient d'une part de déterminer si la signalisation BMP joue un rôle pendant la phase de croissance du muscle postnatale/juvénile dépendante des cellules satellites, et d'autre part d'investiguer si cette voie est impliquée dans la maintenance de la masse musculaire squelettique adulte. J'ai trouvé que les composants de cette voie de signalisation sont exprimés dans les cellules satellites de souris néonatales, juvéniles et adultes. Par ailleurs, j'ai utilisé des lignées de souris transgéniques pour surexprimer, de manière conditionnelle, l'inhibiteur Smad6 de la cascade de signalisation BMP dans les cellules satellites ou dans le muscle squelettique. J'ai pu ainsi démontrer que cette signalisation est requise pour une prolifération correcte des cellules satellites et pour leur différentiation en myonuclei, assurant que les fibres musculaires en croissance atteignent une taille finale normale. Par ailleurs, mes travaux révèlent que le nombre final de cellules satellites est établis pendant la phase de croissance postnatale/juvénile et que celle-ci dépend de la cascade de signalisation BMP. Enfin, je fournis des preuves montrant que la signalisation BMP est un puissant signal hypertrophique dans le muscle squelettique adulte et que sa présence est indispensable pour le maintien du tissu musculaire. En résumé, mes résultats de recherche démontrent que les BMPs sont des facteurs de croissance essentiels pour le muscle squelettique postnatal. / Bone Morphogenetic Proteins (BMPs), a subfamily of TGF-β growth factors, have been shown to be key signals that regulate embryonic and fetal muscle precursors during prenatal myogenesis, as well as the stem cells of adult muscle, termed ‘satellite cells’, when activated during muscle regeneration. The main aims of my thesis were to elucidate whether BMP signaling plays a role during postnatal/juvenile satellite cell-dependent muscle growth as well as for maintenance of adult muscle mass. I found that components of BMP signaling pathway are expressed in muscle satellite cells of neonatal, juvenile and adult mice. I used transgenic mouse lines to conditionally overexpress the BMP signaling cascade inhibitor Smad6 in muscle satellite cells and in differentiated skeletal muscle. I show that BMP signaling is required for correct proliferation of muscle satellite cells and their differentiation into myonuclei, thereby ensuring that the growing muscle fibers reach the correct final size. Moreover, I demonstrated that the final number of muscle stem cells is established during the postnatal/juvenile growth phase and this also depends on the BMP signaling cascade. Finally, I provide evidence that BMP signaling is a strong hypertrophic signal for the adult skeletal muscle and its presence is indispensable for muscle tissue maintenance. In summary, my findings demonstrate that BMPs are essential growth factors for postnatal skeletal muscle. Voie de signalisation BMP Facteurs de croissance Cellules souches musculaires Fibres musculaires Développement musculaire postnatal Signal hypertrophique Growth factors Stem cells of muscle BMP signaling pathway 572.8
128	The influence of Notch over-stimulation on muscle stem cell quiescence versus proliferation, and on muscle regeneration / L'influence de Notch sur-stimulation sur quiescence de cellules souches du muscle contre la prolifération et sur la régénération musculaire Ding, Can 06 November 2015 (has links) La transplantation de cellules souches de muscle possède un grand potentiel pour la réparation à long terme du muscle dystrophique. Cependant, la croissance ex vivo des cellules souches musculaires réduit de manière significative l'efficacité de leur greffe puisque le potentiel myogénique est considérablement réduit lors de la mise en culture. La voie de signalisation Notch a émergé comme un régulateur majeur des cellules souches musculaires (MuSCs) et il a également été décrit que la sur-activation de Notch est crucial pour le maintien du caractère souche des MuSC. Cette découverte pourrait être traduite comme un bénéfice thérapeutique potentiel. Des MuSCs murines ont été fraîchement isolées et ensemencées sur des boîtes de culture recouverte de Dll1-Fc, le domaine extracellulaire de Delta-like-1 est fusionné au fragment Fc humain, afin d'activer la voie de signalisation Notch et avec un IgG hu-main comme contrôle. Nous avons utilisé le rAAV afin d’exprimer le Dll1 spécifique-ment dans les muscles de souris. Les souris P3 ont été traitées avec de l’AAV pendant 3 semaines et 6 semaines afin d’étudier l'effet de Dll1 au cours du développement postnatal. Afin d’étudier le processus de régénération, l'AAV a également été injecté dans les muscles de souris mdx alors que les souris de type sauvage ont été utilisées comme contrôle. Un potentiel caractère souche supérieur (marquée avec le Pax7) est observé dans les cultures des MuSCs qui sont recouverte de Dll1-Fc par rapport à leurs homologues contrôles, par contre le taux de proliférer est réduit. Au cours du développement postnatal, la sur-activation de la voie de signalisation Notch par Dll1 sur les fibres musculaires a été en mesure d'élargir le pool des cellules Pax7+, cependant elle entraîne une diminution de la masse musculaire avec réduction de la taille des fibres et ceci sans affecter l'accumulation des myonuclei. Dans les MuSCs quiescentes (de type sauvage), la sur-activation de la voie de signalisation Notch ne présente pas de réel effet. La surexpression de Dll1 dans le muscle mdx a diminué la masse musculaire et agrandit le pool de cellules souches musculaires, ce-pendant le taux de régénération n'a pas été affecté. L’augmentation des MuSCs est attribuée à une différenciation entravée des cellules souches musculaires. En étudiant la stimulation de la voie de signalisation Notch dans les MuSCs à la fois in vitro et in vivo, nous démontrons que sur-activation de Notch préserve le caractère souche des cellules via l’inhibition de la prolifération et de la différenciation myogénique des MuSCs. / Muscle stem cell transplantation possesses great potential for long-term repair of dys-trophic muscle. However expansion of muscle stem cells ex vivo significantly reduces their engraftment efficiency since the myogenic potential is dramatically lost in culture. The Notch signaling pathway has emerged as a major regulator of muscle stem cells (MuSCs) and it has recently been discovered that high Notch activity is crucial for maintaining stemness in MuSCs. This feature might be exploited and developed into a novel therapeutic approach.Murine MuSCs were freshly isolated and seeded on culture vessels coated with Dll1-Fc, which fused Delta-like-1 extracellular domain with human Fc, to activate Notch sig-naling and with human IgG as a control. The rAAV gene delivery system was em-ployed to express Dll1 in murine muscles. P3 mice were treated with AAV for 3 weeks and 6 weeks to investigate the effect of Dll1 during postnatal development. To investi-gate the regeneration process, AAV were injected into mdx muscles whereas wild-type mice were used as control.Higher potential stemness (marked by Pax7 positivity) was observed in MuSCs grow-ing on a Dll1-Fc surface as compared to their counterparts on the control surface, while their proliferation rate was reduced. During postnatal development, overstimulation of Notch signaling by Dll1 on the mus-cle fibers was able to enlarge the Pax7+ cell pool, while also resulting in decreased muscle mass and smaller muscle fibers without affecting the accretion of myonuclei into the fiber. In quiescent (wild-type) MuSCs, overstimulation of Notch signaling did not have any discernible effect. Overexpression of Dll1 in mdx muscle decreased the muscle mass and enlarged the muscle stem cell pool, while muscle regeneration re-mained unaffected. By investigating Notch stimulation in MuSCs both in vitro and in vivo, we demonstrate that high Notch activity preserves stemness via inhibition of MuSCs proliferation and myogenic differentiation. Our findings point out that the Dll1 molecule, as a canonical Notch ligand, might have a therapeutic potential in cell-based therapies against muscu-lar dystrophies. La voie de signalisation Notch La régénération musculaire La thérapie cellulaire Culture cellulaire La myopathie de Duchenne Prolifération réduite The Notch signaling pathway Muscular distrophies Muscle stem cells 571.6
129	Étude de la voie de signalisation du facteur de croissance épidermique HB-EGF et de son récepteur dans la cellule β-pancréatique Maachi, Hasna 12 1900 (has links) Le diabète de type 2 (DT2) est caractérisé par une résistance à l’action de l’insuline et une dysfonction des cellules β pancréatiques. Il apparait lorsque la cellule β devient incapable d’augmenter sa masse fonctionnelle afin de compenser la résistance périphérique à l’action de l’insuline. L’identification de molécules capables de stimuler la réplication des cellules β et ainsi de préserver leur masse fonctionnelle aurait donc un intérêt thérapeutique majeur. Nous avons établi un modèle d’excès de nutriments in vivo chez le rat, dans lequel nous avons observé qu’une augmentation de la prolifération des cellules β associée à une augmentation de l’expression du facteur de croissance « heparin-binding EGF-like growth factor » (HB-EGF). L’objectif de cette thèse était de valider l’effet mitogène du HB-EGF sur les cellules β de rats et humaines, puis d’identifier le mécanisme d’activation de la voie HB-EGF-EGFR. Dans une première étude, nous avons démontré ex vivo que le facteur croissance HB-EGF stimule la prolifération des cellules β pancréatiques d’îlots isolés de rats et humains via l’activation de son récepteur EGFR. Nous avons également observé que la stimulation de la prolifération des cellules β de rats par le glucose nécessite l’activation de la voie de signalisation HB-EGF-EGFR par un mécanisme qui implique à la fois une augmentation de l’expression du gène codant pour HB-EGF via le facteur de transcription ChREBP, et l’activation du récepteur EGFR via une protéine de la famille des protéines Src tyrosine kinase. Les cellules β des îlots humains étant réfractaires à la prolifération, il est essentiel de confirmer les résultats obtenus chez les rongeurs dans des tissus humains. Nous avons observé un effet mitogène d’HB-EGF sur les cellules β humaines. En revanche, nous n’avons pas pu détecter de manière reproductible un effet stimulant du glucose sur la prolifération des cellules β humaines. Notre deuxième étude a donc consisté à identifier la technique la plus appropriée pour mesurer la prolifération des cellules β humaines. Nous avons comparé systématiquement la mesure de la prolifération en réponse à divers stimuli par cytométrie en flux ou par immunohistochimie sur des îlots intacts ou dispersés. Nous avons testé trois facteurs mitogènes soit le glucose, l’HB-EGF et l’harmine. Nous avons observé que l’HB-EGF et l’harmine stimulent la prolifération des cellules β et non β indépendamment de la méthode utilisée. En revanche, l’action mitogène du glucose semble être dépendante de la méthode. En conclusion, nous avons d’abord démontré que l’effet mitogène du glucose nécessite l’activation de la voie de signalisation HB-EGF-EGFR. Ensuite, nous avons observé que la mesure de la prolifération des cellules β humaines par cytométrie en flux offre plusieurs avantages par rapport à l’immunohistochimie. / Type 2 diabetes (T2D) is characterized by peripheral insulin resistance and pancreatic β-cell dysfunction. T2D occurs when β cells become unable to increase their functional mass in order to compensate for insulin resistance. The identification of molecules capable of stimulating β-cell replication to preserve their functional mass would therefore be of major therapeutic interest. We previously established a model of nutrient excess in which we observed an increase in β-cell proliferation associated with enhanced expression of the growth factor "heparin-binding EGF-like growth factor" (HB-EGF). The objective of the work presented in this thesis was to test the hypothesis that HB-EGF stimulates both rodent and human β-cell proliferation and to identify the underlying mechanisms. In a first study, we demonstrated ex vivo that HB-EGF stimulates pancreatic β-cell proliferation of isolated rat and human islets by activating EGFR. We also demonstrated that glucose, an important mitogen of the β cells, requires the activation of this HB-EGF-EGFR signaling pathway, ex vivo and in vivo in an infused rat model, to stimulate β-cell replication. Mechanistically, we demonstrate that glucose promotes HB-EGF gene expression via the ChREBP transcription factor and EGFR activation via a protein from the Src kinase family. Since adult human β cells tend to be refractory to proliferation, it is essential to confirm the findings obtained in rodents in human tissues. In isolated human islets, we confirmed the mitogenic action of HB-EGF but we were unable to detect a consistent stimulation of human β-cell proliferation in response to glucose. Our second study therefore consisted in identifying the most appropriate technique to measure human β-cell proliferation. We systematically compared proliferation levels measured by flow cytometry or immunohistochemistry in intact and dispersed human islets. We tested three mitogenic factors: glucose, HB-EGF and harmine. We observed that HB-EGF and harmine stimulate non-β cells and β-cell proliferation regardless of the method used. In contrast, the mitogenic action of glucose is variable depending on the method used. In conclusion, we first demonstrated that the mitogenic effect of glucose in β cells requires the activation of the HB-EGF-EGFR signaling pathway. Then we demonstrated that assessment of human β cell proliferation by flow cytometry offers several advantages over the use of immunohistochemical methods. Cellules β β cell Prolifération Proliferation Signalisation Signaling pathway Rat Human Humain HB-EGF EGFR mTOR Glucose Harmine
130	Role of TRIP6 and Angiomotins in the Regulation of the Hippo Signaling Pathway Dutta, Shubham 16 March 2018 (has links) Mechanical tension is an important regulator of cell proliferation, differentiation, migration and cell death. It is involved in the control of tissue architecture and wound repair and its improper sensing can contribute to cancer. The Hippo tumor suppressor pathway was recently shown to be involved in regulating cell proliferation in response to mechanical tension. The core of the pathway consists of the kinases MST1/2 and LATS1/2, which regulate the target of the pathway, the transcription co-activator YAP/ TAZ (hereafter referred to as YAP). When the Hippo pathway is inactive, YAP remains in the nucleus and promotes cell proliferation and stem cell maintenance. When the Hippo signaling pathway is turned on, MST1/2 phosphorylate and activates LATS1/2. LATS1/2 phosphorylates and inactivates YAP in the cytoplasm which is sequestered and degraded, stopping cell proliferation and promoting differentiation of stem cells. Mechanical forces are transmitted across cells and tissues through the cell-cell junctions and the actin cytoskeleton. However, the factors that connect cell-cell junctions to the Hippo signaling pathway were not clearly known. We identified a LIM domain protein called TRIP6 that functions at the adherens junctions to regulate the Hippo signaling pathway in a tension-dependent manner. TRIP6 responds to mechanical tension at adherens junctions and regulates LATS1/2 activity. Under high mechanical tension, TRIP6 sequesters and inhibits LATS1/2 at adherens junctions to promote YAP activity. Conditions that reduce tension at adherens junctions by inhibition of actin stress fibers or disruption of cell-cell junctions reduce TRIP6-LATS1/2 binding, which activates LATS1/2 to inhibit YAP. Vinculin has been shown to act as part of a mechanosensory complex at adherens junctions. We show that vinculin promotes TRIP6 inhibition of LATS1/2 in response to mechanical tension. Furthermore, we show that TRIP6 competitively inhibits MOB1 (a known LATS1/2 activator) from binding and activating LATS1/2. Together these findings reveal TRIP6 responds to mechanical signals at adherens junctions to regulate the Hippo signaling pathway in mammalian cells. Hippo signaling pathway TRIP6 vinculin LATS MOB YAP stretch mechanosensing mechanical tension adheres junction cell junction Biology Cell and Developmental Biology

Search results