Global ETD Search

181	Análise da expressão de moléculas de adesão no tumor primário e em metástases ósseas e linfonodais de pacientes com câncer de próstata / Adhesion molecules in localized prostate cancer and in bone and lymph node metastases José Pontes Junior 12 February 2010 (has links) Objetivo: As moléculas de adesão celular (MAC) são essenciais para a manutenção do fenótipo epitelial. Alguns estudos têm relatado associação entre as alterações de sua expressão e a carcinogênese, mas o seu papel no câncer de próstata não é claro. Nosso objetivo foi estudar o perfil de expressão de E-caderina, cateninas e integrinas em espécimes cirúrgicos de câncer de próstata e associar as suas expressões com a evolução do tumor. Avaliamos também o perfil de expressão em metástases ósseas e linfonodais, a fim de compreender a influência destes marcadores na progressão do câncer de próstata. Materiais e Métodos: Foram selecionados 111 pacientes com câncer de próstata localizado tratados com prostatectomia radical pelo mesmo cirurgião. Sessenta pacientes não apresentaram recidiva tumoral após acompanhamento médio de 123 meses. A expressão das MAC foi avaliada por imuno-histoquímica (IH) em microarranjo tecidual (TMA), contendo duas amostras de cada tumor. Empregamos análise semiquantitativa para avaliação da expressão e determinamos a associação entre a expressão de cada MAC com a recorrência do tumor após a cirurgia. Avaliamos também a expressão das MAC por IH em TMA contendo espécimes de 28 metástases ósseas e em outro TMA contendo 19 metástases linfonodais com seus 19 tumores primários correspondentes. Resultados: Nos tumores primários a análise multivariada mostrou que a expressão das integrinas 3 e 3 1 relaciona-se com recidiva da doença. Quando a expressão de 3 foi forte e a expressão de 3 1 foi positiva, as chances de recorrência foram de 3,0 e 2,5 vezes maior. Apenas 19% e 28% dos pacientes estavam livres de recidiva após seguimento médio de 123 meses, quando os tumores apresentavam forte imunoexpressão de 3 ou positiva para 3 1 respectivamente. Outras integrinas apresentaram expressão reduzida, exceto 6 que foi expressa pela maioria dos tumores primário e metástases. A E-Caderina e as cateninas não mostraram associação com o prognóstico no tumor de próstata localizado. No sítio metastático, houve perda global de expressão das MAC. Encontramos ganho de expressão com a progressão do câncer de próstata somente para a integrina 3 que mostrou forte expressão em metade das metástases ósseas e linfonodais. Encontramos forte expressão de e -catenina foi em 94% dos linfonodos e 45% Conclusões: Nossos experimentos demonstram que a expressão das integrinas 3 e 3 1 está independentemente associada à recidiva de câncer de próstata após prostatectomia radical, e que a perda das moléculas de adesão celular pode ser considerada uma característica da progressão desta neoplasia / Purpose: Cell adhesion molecules (CAM) are essential for the maintenance of epithelial phenotype. Some studies have reported correlations between abnormalities in their expression and carcinogenesis, but their role in prostate cancer is unclear. Our aim was to study the expression profile of E-cadherin, catenins and integrins in surgical specimens of prostate cancer and associate their expression with outcome. We also assessed these expressions in bone and lymph node metastases in order to understand their influence in the progression of prostate cancer. Materials and Methods: We selected 111 patients with localized prostate cancer who underwent radical prostatectomy performed by the same surgeon. Sixty patients had no tumor recurrence after a median follow-up of 123 months. The CAM expression was evaluated by immunohistochemistry in a tissue microarray (TMA) containing two samples of each tumor. A semiquantitative analysis was employed and we measured the association between the expression of CAM and tumor recurrence. We also evaluated CAM expression by immunohistochemistry in a TMA containing 28 bone metastases and in other TMA containing 19 lymph node metastases with their corresponding 19 primary tumors. Results: In primary tumors, multivariate analysis showed that expression of 3 and 31 integrins was related to worse outcome. When 3 expression was strong and 31 expression was positive,the odds of recurrence were 3.0 and 2.5 fold higher. Only 19% and 28% of patients were recurrence-free in a mean follow up period of 123 months, when tumors showed strong 3 or positive 31 immuno-expression respectively. Other integrins have shown reduced expression, except 6 , which was expressed in most primary and metastatic cases. E-cadherin and catenins expressions were not associated with primary tumor outcome. At the metastatic setting, there was a global loss of CAM expression. We observed reliable gain of expression with prostate cancer progression only for integrin 3 that showed strong expression in half of bone and lymph node metastases. Interestingly, strong expression of and -catenin was observed in 94% of lymph node and 45% of bone metastases. Conclusions: We have demonstrated that the expression of integrins 3 and 31 was independently associated with recurrence after radical prostatectomy. In addition, we have shown that the loss of cell adhesion molecules can be considered a characteristic of prostate cancer progression Caderinas Câncer de próstata Cateninas Integrinas Moléculas de adesão celular Cadherins Catenins Cell adhesion molecules Integrins Prostate cancer
182	Interplay between cancer cells and cancer-associated fibroblasts in tumor invasion and metastasis formation / Rôle des fibroblastes associés au cancer dans l'invasion tumorale Atieh, Youmna Marie Lyne 04 July 2017 (has links) Les carcinomes sont des cancers touchant plusieurs organes du corps humain, notamment les seins, le pancréas, les poumons, l'intestin… et sont issus de la transformation de cellules épithéliales en cellules tumorales. Au cours du développement d'une tumeur, les cellules cancéreuses, contrairement aux cellules normales, acquièrent la capacité de se déplacer dans le corps humain, jusqu'à coloniser des organes voisins. Ces colonies sont appelées métastases. Le processus métastatique est responsable de 90% des décès dans le cadre des carcinomes. Ce processus n'est pas dû à l'action isolée des cellules cancéreuses mais est aussi le résultat d'une coopération entre la tumeur et son voisinage – le microenvironnement tumoral – favorisant la survie et la migration des cellules cancéreuses. Les fibroblastes sont une population cellulaire du microenvironnement tumoral. Il a été démontré que les fibroblastes sont activés à proximité des cellules cancéreuses ; on les qualifie de fibroblastes associés au cancer ou CAFs. Dans des tissus de patients, les tumeurs les plus agressives corrèlent avec un enrichissement en fibroblastes et une matrice plus dense. Mon projet de thèse illustre un nouveau mécanisme de coopération entre CAFs et cellules cancéreuses. Cibler l’action des fibroblastes pourrait ralentir la progression tumorale, voire bloquer la formation de métastases. / Cancer-associated fibroblasts (CAFs) are the most abundant cells of the tumor stroma. Their capacity to contract the matrix and induce invasion of cancer cells has been well-documented. However, it is not clear if CAFs remodel the matrix by other means (degradation, matrix deposition or stiffening). This project demonstrates that CAFs induce cancer cell invasion through assembly of FN into the matrix. CAFs assembled fibronectin (FN) mainly via integrin α5 but integrin αvβ3 was necessary for initial mechanosensing and fibrillar adhesion formation. In the absence of FN, contractility of the matrix by CAFs is preserved. When degradation is impaired, CAFs retain the capacity to induce invasion in a FN-dependent manner. In all cases, the levels of expression of integrin β3 and the amount of assembled FN was directly proportional to the invasion induced by fibroblast populations. Our results highlight FN assembly and integrin β3 as new hallmarks of CAFs. We also noticed that cancer cells migrate towards CAFs suggesting a possible chemotactic response. Using Dunn’s chemotaxis chamber, we found that cancer cells migrate along a gradient of CAF-conditioned media and a gradient of fibronectin. Finally, orthotopic injections of cancer cells and CAFs in the colon wall of mice revealed that CAFs stimulate metastasis of cancer cells to the liver. In conclusion, our data show that CAFs promote cancer cell invasion by depositing fibronectin that can guide cancer cells favoring metastasis formation. CAFs Cancer Matrice Microenvironnement tumoral Fibronectine Intégrines Tumor microenvironment Fibronectin Integrins 571.6
183	Matrix degrading proteases and collagen-derived angiogenesis inhibitors in the regulation of carcinoma cell growth Nyberg, P. (Pia) 05 April 2005 (has links) Abstract Cancer progression is a complex multi-step process. Two critical steps in tumor growth and invasion are the proteolytic processing of the extracellular matrix environment and the angiogenic switch enabling blood supply into the tumor. Matrix metalloproteases (MMPs) are a group of proteolytic enzymes involved in physiological and pathological extracellular matrix processing. Trypsinogen, a serine protease, is one of the first proteolytic enzymes characterized. The amount of one of its isoforms, tumor associated trypsinogen-2 (TAT-2) correlates with the malignant phenotype of several forms of cancers. Both of these protease groups are critically dependent on their activation from latent proforms to fully active enzymes. We found that the overproduction of TAT-2 in malignant oral squamous cell carcinoma cell line was associated with elevated proMMP-9 (but not proMMP-2) activation, as well as enhanced cancer cell intravasation in an in vivo model. This indicates that TAT-2 and MMP-9 activation play a role in the invasive growth of oral carcinomas. Proteases are involved in angiogenesis, the formation of new blood vessels, in several ways. One mechanism is the release of cryptic anti-angiogenic molecules from larger extracellular matrix components. Endostatin is one such cryptic endogenous inhibitor of angiogenesis. Certain MMPs were able to cleave endostatin from its parent molecule, collagen XVIII. The endostatin fragments generated by MMP-3, -7, -9, -13 and -20 inhibited angiogenesis in a similar fashion as the native endostatin. The regulation between MMPs and endostatin was shown to be reciprocal, as endostatin was able to block the activation and activities of MMP-2, -9 and -13. The inhibition of these tumor-associated MMPs explains at least in part the anti-tumor activity of endostatin. Endostatin not only affects endothelial cell growth as is usually thought, but it also inhibits the migration of oral carcinoma cells. In addition, cell density and proper concentration were proven to be critical for the activity of endostatin. Arresten is another endogenous inhibitor of angiogenesis and tumor growth derived from type IV collagen. We confirmed that arresten binds to integrin α1β1 on endothelial cell surface. We found that this binding is functionally significant for the anti-angiogenic properties of arresten, as tumors planted to integrin α1 knockout mice or endothelial cells derived from those mice did not respond to arresten treatment. angiogenesis inhibitors carcinoma collagen endostatins extracellular matrix integrins matrix metalloproteases trypsinogen arresten
184	A synthetic biodegradable oriented scaffold for skeletal muscle tissue engineering Aviss, Kathryn Jane January 2011 (has links) The aim of this project was to create a novel biodegradable, synthetic scaffold that will provide the correct topographical cues for myoblast alignment and efficient differentiation into myotubes. Skeletal muscle repair after major surgery or serious burns is often overlooked leading to poor healing and consequent loss of power in movements of affected limbs. In order to overcome this problem a tissue engineered construct could be utilised as a grafting patch to encourage further regeneration and enhance possible power to the limb. Using a biodegradable polymer can provide structural support until the tissue is established, and will be excreted by the body's natural processes as it degrades. A synthetic polymer is desirable as it can reduce the risk of immunogenic responses thus reduce risk of graft rejection. For successful in vitro growth of skeletal muscle, the cells must be encouraged to arrange themselves into parallel arrays in order for efficient fusion and consequent contraction. By incorporating the correct topographical cues into the scaffold to promote contact guidance for cellular alignment this can be achieved. Electrospinning is a reliable technique which yields highly reproducible aligned fibres from the micro- to the nanoscale. This project focuses upon creating and characterising the electrospun scaffold, checking biocompatibility with myoblasts by monitoring the topography, residual solvent within the scaffold, the mechanical properties of the scaffold, and a brief investigation into the degradation profile of the electrospun fibres. The immunogenicity of the scaffold was investigated by monitoring cytokine release from macrophages. Myoblast morphology was monitored, as was the efficiency of the cells to differentiate and their potential to become contractile myofibres. Cellular adhesion to the scaffold was also looked into by measuring the expression of integrins during early and late adhesion and on substrates with different topographies. It was found that the electrospun scaffold did not contain a significant amount of residual solvent, and macrophages were not activated any more than on tissue culture plastic. Myoblasts responded to the topography of the aligned fibres by aligning along the length of the fibres, showing elongation and bi-axial cytoskeletal arrangement after just 30 minutes culture on the aligned fibres. This elongation prompted fusion and differentiation of the myoblasts to occur faster than cells which were not exposed to the aligned topography, and this global alignment was maintained in long term culture. 611
185	Étude du mécanisme de génération de forces mécaniques par les cellules apoptotiques et leur transmission au reste du tissu / Study of the mecanical force generator mecanism within apoptotic cells and their transmission to surrounding tissue Ambrosini, Arnaud 24 September 2018 (has links) La morphogénèse épithéliale est une caractéristique clé du développement des organismes multicellulaires. Parmi les différents types d'évènement morphogénétique, la capacité à créer des invaginations est cruciale pour la mise en forme des organismes. Un aspect fondamental de la morphogénèse repose sur la capacité des cellules à exercer, échanger et résister aux stress mécaniques pour permettre la mise en forme des tissues. Au cours des décennies passées, l'importance des forces mécaniques générées au niveau des jonctions adhérentes et notamment sur le plan parallèle au plan apical a été largement démontrée. Cependant, le rôle des forces mécaniques générées sur un plan perpendiculaire au plan apical (dans l'axe apico/basal) est loin d'être aussi bien compris. Récemment, l'équipe a montré que les cellules apoptotique au sein de l'épithélium de patte de drosophile sont capables de générer une force apico/basale qui est requise pour la formation des plis distaux, préfigurant les articulations de la future patte. Même si le rôle d'une structure verticale d'acto-myosine (nommée câble) dans la génération de cette force, a été clairement démontré, rien n'est connu à propos de sa régulation ou du point d'ancrage que ce câble d'acto-myosine pourrait utiliser pour générer cette force. De plus, seuls les effets apicaux de cette force ont été étudiés. Mes travaux de thèses se sont articulés autour de deux objectifs principaux : (1) Déchiffrer les mécanismes intracellulaires requis pour le processus de génération de force apico-basal via le câble, en étudiant en parallèle les effets de la génération de force sur le processus apoptotique lui-même. (2) Etudier les conséquences de l'application de cette force mécanique sur le pôle basal de l'épithélium. Au cours de ma thèse, j'ai montré que pour exercer une force apico-basale, les cellules apoptotiques créent une structure apico-basale comprenant, de l'apical vers le basal : les jonctions adhérentes, un câble d'acto-myosine, le noyau et les jonctions basales.[...] / Epithelium morphogenesis is a key feature during the development of multicellular organism. Within morphogenetic events, the ability to create a fold is crucial to shape multicellular organism. A fundamental aspect of morphogenesis lies on the ability of cells to exert, exchange and resist mechanical stress in order to shape the tissue. During the past decades, the importance of mechanical force generated at the level of adherent junctions, parallel to the apical plan has been greatly elucidated. However, the role of mechanical forces generated perpendicular to the apical plan (in the apico/basal axe) is far from being understood. Recently, the team demonstrated that apoptotic cells in the leg disc epithelium of the drosophila, are able to generate an apico/basal force that is required for the fold formation that foreshadows the future articulation of the adult leg. Even if the role of acto-myosin structure in the generation of this force has been demonstrated, nothing is known about other regulators or even anchoring points that could help this structure in generating this force. Moreover, the effects of this force have only been observed for the apical side of the epithelium. My Phd aims at two goals: (1) Deciphering the intracellular structure that are required for this force generation process and the possible effect of force generation for the apoptotic process per se.(2) Analysing the consequences of those forces on the basal side of the epithelium. During my Phd, I have shown that in order to exert an apico/basal force, the apoptotic cell needs to generate an apico/basal structure comprising from the apical to the basal: adherent junctions, acto-myosin cable, nucleus and basal adhesions. More precisely, I observed that acto-myosin structures called "cables" that have been implicated in the force generation process, spawn from the adherent junctions and grows progressively until reaching the nucleus of the cell. I observed that apoptotic cells have a basally localised nucleus. Following that, I observed that nucleus is anchored by a basal actin meshwork, that restraints apoptotic nucleus movements. What is more, I observed that apoptotic cells maintain basal cell/matrix adhesions. [...] Apoptose Morphogénèse Forces mécaniques Matrice extracellulaire Intégrines Noyau Apoptosis Morphogenesis Mecanical forces Extracellular matrix Integrins Nucleus
186	Role of ICAP-1 in integrins' dynamic regulation, mechanosensing and contractility of osteoblast cells / Rôle d'ICAP-1 dans la régulation de la mécanosensibilité et de la contractilité des cellules ostéoblastiques via la dynamique des intégrins Kyumurkov, Alexander 24 November 2017 (has links) L'ICAP-1 est impliqué dans la dynamique de l'intégrine et la génération de force en contrôlant l'endocytose de l'intégrine grâce à la scission dépendant de nm23 des puits endocycliques recouverts de chlatrine.L'ICAP-1 a été identifié comme un partenaire spécifique de l'intégrine b1 (Degani et al., 2002, Zhang et Hemler, 1999). Nous avons déjà montré que l'ICAP-1 est impliqué dans la réponse mécanisée aux cellules et la différenciation cellulaire d'une manière dépendante de l'intégrine b1 (Bouvard et al., 2007; Brunner et al., 2011; Faurobert et al., 2013; Millon-Frémillon et al. , 2008; Renz et al., 2015). Cependant, comme ICAP-1 est également capable d'adapter la migration cellulaire en réponse à la rigidité du substrat d'une manière indépendante de la β1-intégrine (Bouin et al., 2017), nous avons spéculé sur un rôle plus général de l'ICAP-1 dans l'adhésion cellulaire et dynamique d'adhérence focale. Pour cela, nous avons créé un environnement cellulaire où l'intégrine b1 et / ou l'ICAP-1 étaient absentes en utilisant quatre lignées cellulaires: les ostéoblastes WT, les cellules ostéoblastes KO de l'intégrine b1, les cellules ostéoblastes KAP ICAP-1 et les cellules ostéoblastes double KO b1 / ICAP-1 afin de surveiller le comportement de l'intégrine b3. Comme prévu, l'épuisement de l'intégrine b1 est associé à la perte d'étalement cellulaire et à la génération de force selon la mesure de la microscopie par force de traction. De manière surprenante, la suppression supplémentaire de ICAP-1 (b1 intégrine et ICAP-1 KO) conduit à la restauration de l'étalement cellulaire et de la génération de force qui dépend de l'intégrine b3. Ces forces médiées par l'intégrine b3 sont corrélées avec la diffusion lente de l'intégrine b3 dans les sites d'adhésion et le renouvellement lent de l'adhésion focale contenant l'intégrine b3 (FRAP / TIRF / vidéomicroscopie). Nous avons abordé la question de savoir si ICAP-1 pourrait réguler l'endocytose de l'intégrine b3 puisque ICAP-1 interagit avec nm23-H2 (Fournier et al., 2002), un nucléoside diphosphate kinases (NDPK) impliqué dans l'endocytose à médiation par dynamine en produisant du GTP à travers l'adénosine triphosphate (ATP) de conversion du diphosphate de guanosine (PIB) (Boissan et al., 2014). Nous montrons que la suppression de nm23 ou de dynamine ou de chlatrine dans les cellules épuisées dans l'intégrine b1 est capable d'imiter la perte combinée de l'intégrine b1 et de l'ICAP-1 en rétablissant l'étalement cellulaire, la génération de force et la dynamique de l'intégrine b3. Pour confirmer l'implication de l'ICAP-1 dans l'endocytose de l'intégrine b3, nous montrons que l'absorption de l'anticorps de l'intégrine b3 est efficacement bloquée dans les cellules épuisées dans ICAP-1. Nos résultats suggèrent que ICAP-1 pourrait être impliqué dans la dynamique de l'intégrine et la génération de force en contrôlant l'endocytose de l'intégrine grâce à la scission dépendant de nm23 des puits endocytaires de la couche de chlatrine. / ICAP-1 is involved in integrin dynamics and force generation by controlling integrin endocytosis through nm23-dependent scission of endocytic chlatrin coated pits.ICAP-1 has been identified as a specific partner of b1 integrin (Degani et al., 2002; Zhang and Hemler, 1999). We have previously shown that ICAP-1 is involved in cell mechanoresponse and cell differentiation in a b1 integrin dependent manner (Bouvard et al., 2007; Brunner et al., 2011; Faurobert et al., 2013; Millon-Frémillon et al., 2008; Renz et al., 2015). However, as ICAP-1 is also able to adapt cell migration in response to substrate stiffness in a β1-integrin-independent manner (Bouin et al., 2017), we speculated on a more general role of ICAP-1 in cell adhesion and focal adhesion dynamics. For this purpose we have created cellular environment where b1 integrin and/or ICAP-1 were absent by using four cell lines: WT osteoblast, b1 integrin KO osteoblast cells, ICAP-1 KO osteoblast cells and double KO b1/ICAP-1 osteoblast cells in order to monitor b3 integrin behavior. As expected, depletion of b1 integrin is associated with the loss of cell spreading and force generation according traction force microscopy measurement. Surprisingly, the supplementary deletion of ICAP-1 (b1 integrin and ICAP-1 KO) leads to restoration of cell spreading and force generation which are dependent on b3 integrin. These b3 integrin-mediated forces are correlated with slow diffusion of b3 integrin within adhesion sites and slow turnover of b3 integrin containing focal adhesion (FRAP/TIRF/videomicroscopy). We addressed the question whether ICAP-1 might regulate b3 integrin endocytosis since ICAP-1 interacts with nm23-H2 (Fournier et al., 2002), a nucleoside diphosphate kinases (NDPKs) involved in dynamin-mediated endocytosis by producing GTP through adenosine triphosphate (ATP)–driven conversion of guanosine diphosphate (GDP) (Boissan et al., 2014). We show that the deletion of either nm23 or dynamin or chlatrin in cells depleted in b1 integrin is able to mimic the combined loss of b1 integrin and ICAP-1 by restoring cell spreading, force generation and b3 integrin dynamics. To confirm the involvement of ICAP-1 in b3 integrin endocytosis, we show that the b3 integrin antibody uptake is efficiently blocked in cells depleted in ICAP-1. Our results suggest that ICAP-1 might be involved in integrin dynamics and force generation by controlling integrin endocytosis through nm23-dependent scission of endocytic chlatrin coated pits. Adhesion Contractilité Integrines Endocytose Dynamique d'adhesion Adhesion Contractility Integrins Endocytosis Adhesion dynamics 570
187	In vitro quantitative study of T cell adhesive haptotaxis / Etude quantitative in vitro de l'haptotaxie adhésive des lymphocytes T Luo, Xuan 14 June 2019 (has links) Une réponse immunitaire efficace repose sur un recrutement rapide de leucocytes du sang au tissu enflammé ou endommagé. Pendant ce processus, les leucocytes sont capturés par l'endothélium et migrent le long de la paroi pour atteindre les sites de transmigration. Ces processus sont médiés par des signaux externes parmi lesquels le rôle des molécules d’adhésion reste flou. L’haptotaxie adhésive a été décrite pour les cellules mésenchymateuses qui s’orientent via un mécanisme de tir à la corde - une compétition entre les bords adhérents des cellules. Pour les cellules amiboïdes, l'existence d'une haptotaxie adhésif n'a jamais été observée. Ici, nous avons étudié la migration des lymphocytes T humains sur des substrats dont l’adhérence est spatialement modulée et avons observé une haptotaxie robuste. Mécanistiquement, nous montrons que l'haptotaxie adhésive diffère à la fois de la chimiotaxie, car aucune mécanotransduction n'a été détectée, et du mécanisme de tir à la corde passif, car différentes intégrines induisent des phénotypes opposés. Les cellules ont favorisé des zones plus adhérentes avec VLA-4 et, contre-intuitivement, des zones moins adhérentes avec LFA-1. Ces résultats révèlent que les intégrines contrôlent les comportements différentiels d'haptotaxie adhésive sans mécanotransduction. Nous avons également étudié le mécanisme à l'origine de ce phénotype induit par LFA-1 et avons découvert que la dynamique du lamellipode plutôt que le niveau d'expression de l'intégrine, était impliquée. Les résultats préliminaires avec des lymphocytes T déficients en VASP indiquent également que la protéine VASP pourrait jouer un rôle important dans l'haptotaxie adhésive. / An efficient immune response relies on a rapid recruitment of leukocytes from blood to the inflamed or damaged tissue. During this process, leukocytes are captured by the endothelium and migrate along the vessel wall to reach permissive transmigration sites. These processes are mediated by multiple external cues among which the role of adhesion molecules remains unclear. Adhesive haptotaxis has been described for mesenchymal cells that develop strong pulling forces with their substrates and orient via a tug of war mechanism – a competition between cells’ adherent pulling edges. In the case of amoeboid cells that migrate with minimal interaction with their substrate, the existence of adhesive haptotaxis has yet to be evidenced. Here, we studied the crawling of human T lymphocytes on substrates with spatially modulated adhesion. and observed robust adhesive haptotaxis. Mechanistically, we show that integrin-mediated adhesive haptotaxis of lymphocytes differs both from active chemotaxis, because no mechanotransduction was detected, and from the passive tug of war mechanism, because different integrins support opposite phenotypes. Cells favored more adherent zones with VLA-4 and, counterintuitively, less adherent zones with LFA-1. These results reveal that integrins control differential adhesive haptotaxis behaviors without mechanotransduction. We further investigated the mechanism behind this specific haptotactic phenotype mediated by LFA-1 and find that the lamellipodial dynamics, rather than the integrin expression level, is involved. Preliminary findings with VASP deficient T cells indicate also that VASP protein may play an important role in T cell adhesive haptotaxis. Micropatterning Haptotaxie Intégrines Lymphocytes T Guidage cellulaire Micropatterning Haptotaxis Integrins T lymphocytes Cell guidance 571
188	Rôle et régulation des intégrines et des cadhérines dans la transdifférenciation MUSCLE/OS en réponse à la BMP-2 : approche biomimétique / Role and regulation of integrins and cadherins in the transdifferentiation MUSCLE/BONE induced by BMP-2 : biomimetic approach Valat, Anne 12 September 2016 (has links) Le muscle et l’os coopèrent mécaniquement mais aussi biochimiquement, via les facteurs de croissance et les cytokines. Suite à une lésion de l’os, les cellules souches sont recrutées et induites en différenciation osseuse grâce à la sécrétion de molécules bioactives telles que les facteurs de croissance. L’une des stratégies de l’ingénierie tissulaire de l’os est de combiner des matériaux avec des facteurs de croissance osseux. Les protéines morphogéniques osseuses (ou BMPs), pouvant être présentées aux cellules en solution ou enchâssées dans la matrice, appartiennent à la famille des facteurs de croissance basiques et jouent un rôle très important dans la formation de l’os. Les BMPs induisent non seulement une différenciation osseuse de progéniteurs osseux, mais induisent aussi la transdifférenciation de progéniteurs musculaires vers un phénotype ostéoblastique. L’obtention de la complexité de l’architecture tissulaire osseuse nécessite des interactions continues entre la cellule et son microenvironnement. Ces interactions sont médiées par les récepteurs cellule/matrice (intégrine) et cellule/cellule (cadhérines). Dans cette thèse, nous nous sommes intéressés au rôle du système adhésif dans la réponse à la BMP-2 lors de la transdifférenciation des myoblastes C2C12. Nous avons utilisé un film multicouche à base de hyaluronane et de poly(L-lysine) comme biomatériau pour présenter la BMP-2 par la matrice. A court terme, nous avons mis en évidence une coopération entre l’intégrine 3 et les récepteurs BMP dans l’induction d’un étalement cellulaire et d’une réponse précoce à la BMP-2, via la protéine GSK3. A plus long terme, nous avons montré un switch du répertoire adhésif en réponse à la BMP-2. Enfin, nos résultats suggèrent une coopération entre les intégrines β3 et β5 et les cadhérines N et 11 dans la transdifférenciation induite par la BMP-2. / Muscle and bone cooperate both mechanically and biochemically, through growth factors and cytokines. Following a bone lesion, stem cells are recruited and their differentiation is induced via the secretion of bioactive molecules such as growth factors. One strategy in bone tissue engineering is to combine materials with bone growth factors. Bone Morphogenetic Proteins (BMPs), which can be presented to the cell either in solution or bound to the matrix, belong to the basic growth factor family and play a very important role in bone formation. BMPs induce not only the differentiation of bone progenitors, but also the transdifferentiation of muscle progenitors towards an osteoblastic phenotype. Obtaining the complexity of the bone tissue architecture requires continuous interactions between the cell and its microenvironment. These interactions are mediated by cell/matrix and cell/cell receptors (integrins and cadherins, respectively). In this thesis, we investigated the role of the adhesion system in the context of its response to BMP-2 during the transdifferentiation of C2C12 murine myoblasts. To do so, we used polelectrolyte multilayer films composed of hyaluronan and poly(L-lysine) as a biomaterial to present BMP-2 in a matrix-bound manner. Short term, we revealed a cooperation between the integrin 3 and BMP receptors in the induction of cell spreading and of an early response to BMP-2 via the protein GSK3. In a longer term, we showed a switch in the repertoire of adhesion receptors in response to BMP-2. Finally, our results suggest a cooperation between 3 and 5 integrins and cadherins N and 11 for the BMP-2-induced transdifferentiation. Biomatériaux Différenciation Intégrines Cadhérines Matrice extracellulaire Ostéogenèse Biomaterials Differentiation Integrins Cadherins Extracellular matrix Osteogenesis 620
189	Electrospinning Protein Nanofibers to Control Cell Adhesion Nwachukwu, Cynthia Chinwe 29 June 2010 (has links) The structural and mechanical properties of a surface often play an integral part in the determination of the cell adhesion strength and design parameters for creating a biodegradable electrospun scaffold. Nanofibers composed of the globular proteins bovine serum albumin (BSA) and fibronectin were produced by electrospinning with the electrospun protein scaffold serving as an extracellular matrix to which adhesion interaction will exist with cells via cell surface integrin. This interaction is vital in regulation cell differentiation, growth and migration and cell adhesion. We will demonstrate the ability to manipulate ligand-receptor interaction, the properties of the electrospun fibers, control and the formation of focal adhesions sites in cells cultured on the fibers with the ultimate goal of developing a biomimetric scaffold to investigate how cell adhesion molecules modulate cell behavior in a 3-dimentional culture. Bovine Albumin Serum Focal Adhesion Fibronectin Globular Proteins Integrins American Studies Arts and Humanities
190	Β1 Integrins Modulate β-Adrenergic Receptor-Stimulated Cardiac Myocyte Apoptosis and Myocardial Remodeling Krishnamurthy, Prasanna, Subramanian, Venkateswaran, Singh, Mahipal, Singh, Krishna 01 April 2007 (has links) Sympathetic nerve activity increases in the heart during cardiac failure. Here, we hypothesized that β1 integrins play a protective role in chronic β-adrenergic receptor-stimulated cardiac myocyte apoptosis and heart failure. l-isoproterenol (iso; 400 μg/kg per hour) was infused in a group of wild-type (WT) and β1 integrin heterozygous knockout (hKO) mice. Left ventricular structural and functional remodeling was studied at 7 and 28 days of iso-infusion. Western blot analysis demonstrated reduced β1 integrin levels in the myocardium of hKO-sham. Iso-infusion increased heart weight:body weight ratios in both groups. However, the increase was significantly higher in WT-iso. M-mode echocardiography indicated increased left ventricular end-diastolic diameter, percentage of fractional shortening, and ejection fraction in the WT-iso group. The percentage of fractional shortening and ejection fraction were significantly lower in hKO-iso versus hKO-sham and WT-iso. Peak left ventricular developed pressure and left ventricular end-diastolic pressure measured using Langendorff-perfusion analyses were significantly higher in the WT-iso group (P<0.05 versus WT-sham and hKO-Iso). The number of TUNEL-positive myocytes was significantly higher in hKO-iso hearts 7 and 28 days after iso-infusion. The increase in myocyte cross-sectional area and fibrosis was higher in the WT-iso group. Matrix metalloproteinase-9 protein levels were significantly higher in WT-iso, whereas matrix metalloproteinase-2 levels were increased in hKO-iso hearts. Iso-infusion increased phosphorylation of c-Jun N-terminal kinase and extracellular signal-regulated kinase 1/2 in both groups. The increase in c-Jun N-terminal kinase phosphorylation was significantly higher in hKO-iso (P<0.001 versus WT-iso). Thus, β1 integrins play a crucial role in β-adrenergic receptor-stimulated myocardial remodeling with effects on cardiac myocyte hypertrophy, apoptosis, and left ventricular function. β-adrenergic receptor β1 integrins apoptosis heart failure JNK MMPs Biomedical Sciences

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