Global ETD Search

341	Modulation de la signalisation du récepteur de type 2 du facteur de croissance de l’endothélium vasculaire (VEGFR-2) par l’ubiquitination Ramos Gueto, Rosemberg 04 1900 (has links) Résumé L’angiogenèse est l’un des processus les plus importants pour le maintien de l’homéostasie de l’oxygène dans les tissus. Le facteur de croissance de l’endothélium vasculaire, VEGF, joue un rôle primordial dans la réponse angiogénique. Ce facteur de croissance mène à l’activation du récepteur de type 2 du facteur de croissance de l’endothélium vasculaire, VEGFR-2. Suite à une activation du VEGFR-2, plusieurs cascades de signalisation sont activées dans les cellules endothéliales. Afin d’atténuer cette signalisation, le VEGFR-2 est multi-ubiquitiné sur des résidus lysine et de cette manière, il est amené aux voies de dégradation, principalement dans les lysosomes. Cette ubiquitination est induite par l’association de l’ubiquitine ligase (E3) c-Cbl à un résidu tyrosine phosphorylé du domaine C-terminal du récepteur. Dans cette étude, nous avons identifié la tyrosine 1319 comme étant nécessaire pour l’association de c-Cbl au VEGFR-2 et son ubiquitination. Nos résultats démontrent aussi que dans des cellules endothéliales aortiques bovines, BAEC, la surexpression du récepteur mutant Y1319F ralentit la dégradation du VEGFR-2 et induit une activation plus forte et prolongée de la synthétase endothéliale du monoxyde d’azote (eNOS). Ces résultats nous permettent de mieux comprendre le déroulement de la régulation de la signalisation du VEGFR-2 au niveau intracellulaire. Mots-clés: [Angiogenèse, VEGFR-2, VEGF, c-Cbl, Ubiquitination, Tyrosine 1319, Dégradation] / Abstract Angiogenesis is one of the most important processes to maintain oxygen homeostasis throughout the different tissues. The different signaling pathways of the vascular endothelial growth factor receptor 2, VEGFR-2, play a primordial role in the angiogenic response induced by different angiogenic factors, one of which is the vascular endothelial growth factor, VEGF. Following VEGFR-2 activation, many signaling cascades are triggered in endothelial cells; in order to attenuate this response, VEGFR-2 undergoes multi ubiquitination on lysine residues and in this fashion it is brought into the degradation pathways, mainly through the lysosomes. This ubiquitination is induced by the association of the ubiquitin ligase (E3) c-Cbl to a phosphorylated tyrosine residue in the c-terminal domain of VEGFR-2. In this study, we identified tyrosine residue 1319 as being necessary for the association of c-Cbl to VEGFR-2 and for its ubiquitination. Our results show as well that overexpression of the mutant Y1319F version of VEGFR-2 in bovine aortic endothelial cells, BAEC, slows down the degradation process of VEGFR-2 and at the same time increases and prolongs the activation of endothelial nitric oxide synthase, eNOS. These results allow us to better understand the process of VEGFR-2 signaling regulation at the intracellular level. Keywords: [Angiogenesis, VEGFR-2, VEGF, c-Cbl, Ubiquitination, Tyrosine 1319, Degradation] Angiogenèse VEGFR-2 VEGF c-Cbl Ubiquitination Tyrosine 1319 Dégradation Angiogenesis
342	Pro-inflammatory and angiogenic activities of VEGF and angiopoietins in murine sponge/Matrigel model Sinnathamby, Tharsika January 2014 (has links) La dérégulation de la formation et l'intégrité des vaisseaux sanguins peut conduire à un état pathologique tel qu’observé dans de nombreuses maladies ischémiques telles que: la croissance de tumeur solide, l’arthrite rhumatoïde, le psoriasis, les rétinopathies et l'athérosclérose. Par conséquent, la possibilité de moduler l'angiogenèse régionale chez les patients souffrant d'ischémie est cliniquement pertinente. Un élément clé dans l'induction de l'angiogenèse pathologique est une inflammation qui précède et accompagne la formation des nouveaux vaisseaux. Ce phénomène est démontré par l'augmentation de la perméabilité vasculaire et le recrutement de monocytes/ macrophages et cellules polynucléaires (neutrophiles). En collaboration avec d'autres groupes, nous avons montré que différents facteurs de croissance tels que le facteur de croissance endothélial vasculaire et les angiopoïétines peuvent non seulement promouvoir l'angiogenèse mais aussi induire diverses étapes connexes au processus de la réaction inflammatoire, y compris la synthèse et la libération des médiateurs inflammatoires et la migration des neutrophiles. Les objectifs de notre étude étaient d'adresser si le vascular endothelial growth factor (VEGF) et les angiopoïétines (Ang1 et Ang2) sont capables de promouvoir la formation des nouveaux vaisseaux sanguins au fil du temps et d'identifier la présence de différentes cellules inflammatoires dans ce processus. Des éponges d'alcool polyvinylique stérilisées et imbibées de Matrigel appauvri en facteur de croissance (contenant PBS, VEGF, Ang1 ou Ang2 (200 ng/200 μl)) ont été insérées sous la peau de souris C57/Bl6 anesthésiées. Les éponges ont ensuite été retirées aux jours 4, 7, 14 ou 21 après la procédure pour des analyses histologiques, immunohistologiques et cytométriques. La formation des nouveaux vaisseaux a été validée par la coloration au Trichrome de Masson et des analyses histologiques et immunohistologiques contre les cellules endothéliales (anti-CD31). De plus, la maturation des vaisseaux a été démontrée par la coloration séquentielle contre les cellules endothéliales (anti-CD31) et musculaires lisses (anti-alpha-actine). Nous avons effectué la même procédure pour caractériser le recrutement de neutrophiles (anti-MPO), et de macrophages (anti-F4/80). Afin de mieux délimiter la présence de différents sous-ensembles de leucocytes recrutés dans les éponges, nous avons utilisé une technique de cytométrie en flux sur des préparations de cellules isolées à partir de ces éponges. Nous avons observé que le VEGF et les angiopoïétines favorisent le recrutement de cellules endothéliales et la formation de nouveaux vaisseaux plus rapidement qu’en présence de PBS. Une fois formé au jour 7, ces nouveaux vaisseaux restent stables en nombre, et ne subissent pas une réorganisation importante de leur surface. Ces vaisseaux maturent grâce au recrutement et au recouvrement par les cellules musculaires lisses des néovaisseaux. En outre, le microenvironnement angiogénique est composé de cellules inflammatoires, principalement de neutrophiles, macrophages et quelques cellules de type B et T. Donc, le VEGF, l’Ang1 et l’Ang2 induisent séparément la formation et la stabilisation de nouveaux vaisseaux sanguins, ainsi que le recrutement de cellules inflammatoires avec des puissances différentes et une action temps-dépendante dans un modèle d’éponge/Matrigel. / A deregulation in blood vessel formation and integrity can lead to a pathological state as seen in many ischemic diseases such as tumor growth, rheumatoid arthritis, psoriasis, retinopathies and atherosclerosis. Therefore, the possibility to modulate regional angiogenesis in patients suffering from ischemia is clinically relevant. One key feature in the induction of pathological angiogenesis is that inflammation precedes and accompanies the formation of neovessels as evidenced by increased vascular permeability and the recruitment of monocytes/macrophages and neutrophils. Along with other groups, we have previously shown that selected growth factors, namely vascular endothelial growth factor (VEGF) and angiopoietins (Ang1 and Ang2) can not only promote angiogenesis but can also induce inflammatory responses, including the synthesis/release of inflammatory mediators and neutrophil migration. The objectives of our study were to address how VEGF and angiopoietins are capable of promoting the formation of neovessels over time and to identify the presence of different inflammatory cells in this event. Sterilized polyvinyl alcohol (PVA) sponges soaked in growth factor-depleted Matrigel containing PBS, VEGF, Ang1 or Ang2 (200 ng/200 μl) were subcutaneously inserted into anesthetized C57/Bl6 mice. The sponges were then removed at day 4, 7, 14 or 21 post-procedure for histological, immunohistological (IHC) and flow cytometric analyses. The formation of neovessels was validated by Masson’s Trichrome staining and by IHC against endothelial cells (anti-CD31) and its maturation was elucidated by sequential IHC staining against endothelial cells and smooth muscle cells (anti-alpha-actin). Likewise, we performed IHC to characterize the recruitment of neutrophils (anti-MPO), and macrophages (anti-F4/80). To better delineate the presence of different leukocyte subsets recruited in the sponges, we utilized multicolor flow cytometry procedure on single cell preparation from the sponges. We observed that both VEGF and angiopoietins favors the recruitment of endothelial cells and the formation of new vessels more rapidly as compared to PBS. Once formed by day 7, these neovessels remain stable in number, do not undergo reorganization in their cross sectional area and mature through the recruitment and ensheathing of smooth muscle cells. In addition, the angiogenic microenvironment is comprised of inflammatory cells, mainly neutrophils, macrophages, and sparsly T and B cells. Hence, VEGF, Ang1 and Ang2 individually promote the formation and stabilisation of neovessels and the venue of inflammatory cells with different potency in a temporal dependant manner in a sponge/Matrigel model. VEGF angiopoïétines angiogenèse maturation inflammation neutrophiles macrophages angiopoietins angiogenesis neutrophils
343	Exploring immune cell functions and ways to make use of them Vågesjö, Evelina January 2016 (has links) In addition to host defense, alternative functions of immune cells are emerging. Immune cells are crucial during healing of injured tissue, in formation of new blood vessels, angiogenesis, and also in maintaining the balance in inflammation having immune regulating functions. Over the last decade a higher degree of heterogeneity and plasticity of immune cells have been reported and immune cells develop different characteristics in different situations in vivo. This thesis investigates roles for immune cells in situations of muscle hypoxia and reduced blood perfusion, wound healing in skin and at sites of transplantation of allogeneic islets of Langerhans and on top of this, ways to steer immune cell function for future therapeutic purposes. A specific neutrophil subset (CD49d+VEGFR1+CXCR4high) was found to be recruited to VEGF-A released at hypoxia and these neutrophils were crucial for functional angiogenesis. In muscle with restricted blood flow macrophages were detected in perivascular positions and started to express aSMA and PDGFR1b and were found to directly assist in blood flow regulation by iNOS-dependent NO production. This essential function in muscle regain of function could be boosted by plasmid overexpression of CXCL12 where the effect of these macrophages chaperoning the vasculature was amplified improving limb blood flow regulation. The effect on macrophages accelerating tissue regeneration being amplified by CXCL12 was tested in a model of cutaneous wound healing where the administration of CXCL12 was optimized for high bioavailability. In the skin, CXCL12-treatment induced accumulation of TGFb-expressing macrophages close to the wound driving the healing process, and subsequently the wounds healed with an efficiency never reported before. In the last study means to circumvent systemic immune suppressive therapy required in allogeneic transplantation was investigated. Allogeneic islets of Langerhans transplanted to muscle were immediately destroyed by the host immune system. Co-transplanting islets and CCL22-encoding plasmids we could curb this fast rejection for 10 days by accumulating CD4+CD25+FoxP3+ regulatory T lymphocytes at the site for transplantation preventing islet grafts from being attacked by the host cytotoxic T lymphocytes. In summary this thesis outlines distinct immune cell subsets being essential for regain of tissue function in hypoxia, ischemia and post injury and ways to amplify specific immune cell functions in these situations that are feasible for clinical use. leukocytes neutrophils macrophages regulatory T cells chemokines VEGF-A hypoxia ischemia muscle Islets of Langerhans diabetes transplantation wound healing
344	L’ischémie des membres inférieurs chez les diabétiques : le rôle du récepteur AT2 / Lower limb ischemia in diabetic patients : the AT2 receptor Paquin-Veillette, Judith January 2016 (has links) Résumé : Les patients diabétiques ont plus de risques d’être amputés d’une jambe en raison d’une plus faible néovascularisation suite à une ischémie. Nous avons montré une association entre une plus faible réponse angiogénique du VEGF chez les souris diabétiques (DM) et une augmentation de l’expression de SHP-1, pouvant être activée par les récepteurs (AT[indice inférieur 1]/AT[indice inférieur 2]). La délétion du récepteur AT[indice inférieur 2] chez des souris favorise l’angiogenèse dans le muscle ischémique, mais son rôle en condition diabétique demeure inconnu. Notre objectif est de vérifier si la délétion du récepteur AT[indice inférieur 2] chez des souris DM favorise l’angiogenèse suivant l’induction d’une ischémie. Des souris DM de type 1 déficientes (KO) ou non pour le récepteur AT[indice inférieur 2] ont été utilisées. L’ischémie a été induite par la ligature de l'artère fémorale. La perfusion sanguine a été mesurée pendant 2 ou 4 semaines avant la récolte des tissus. Les effets de l’ischémie sur l’expression des récepteurs AT[indice inférieur 1] et AT[indice inférieur 2], des phosphatases SHP-1, SHP-2 et PTP1B, ainsi que l’état de la voie de signalisation du VEGF ont été mesurés. Un essai phosphatase a aussi été effectué suite à l’immunoprécipitation de SHP-1 chez des BAECs stimulés au CGP42112A. Quatre semaines après la chirurgie, le flot sanguin dans le muscle ischémique des souris DM AT[indice inférieur 2]KO s’est rétabli plus rapidement (80%) comparativement à une récupération de 47% chez les souris DM contrôles. L’expression des facteurs pro-angiogéniques (HIF-1α et VEGF) était similaire dans tous les groupes après 2 semaines d’ischémie, mais diminuée chez les DM et retournait à un niveau basal chez les DM-AT[indice inférieur 2]KO après 4 semaines, suggérant un reperfusion plus rapide chez ces souris. La phosphorylation de Akt était aussi plus faible chez les souris DM contrôles mais était rétablie chez les souris AT[indice inférieur 2]KO après 4 semaines d’ischémie. L'expression de SHP-1 était doublée dans le muscle ischémique des souris DM, en comparaison aux souris non DM, un effet absent chez les souris DM AT[indice inférieur 2]KO. L’expression de SHP-2 et PTP1B ne variait pas chez les souris DM sauvages et AT[indice inférieur 2]KO. De plus, l’expression des récepteurs AT[indice inférieur 1] et AT[indice inférieur 2] est augmentée chez les souris DM sauvages en comparaison aux souris NDM. La stimulation du récepteur AT[indice inférieur 2] chez les BAECs a permis d’augmenter l’activité phosphatase de SHP-1. Nos résultats suggèrent que l’expression élevée d’AT[indice inférieur 2] chez les souris DM mène à la surexpression et/ou l’activation de SHP-1, inhibant le signal angiogénique issu du VEGF et empêchant la reperfusion sanguine suite à l’ischémie. / Abstract : Ischemia due to narrowing of femoral artery and distal vessels is a major cause of peripheral arterial disease and morbidity affecting patients with diabetes. We have previously reported that the inhibition of the angiogenic response to PDGF and VEGF in diabetic mice (DM) is associated with the increase expression of SHP-1, a protein that can be activated by the AT[subscript 2] receptor. It has been shown that the deletion of AT[subscript 2] receptor in mice promotes angiogenesis within the ischemic muscle, but its role in diabetic condition remains unknown. Our hypothesis is that AT[subscript 2] receptor induced SHP-1 which contributed to inhibition of pro-angiogenic factor actions in DM mice during ischemia. Non-DM and DM AT[subscript 2] null mice underwent femoral artery ligation. Blood perfusion was measured every week up to 4 weeks post-surgery. Expression of AT[subscript 1] and AT[subscript 2] receptors, SHP-1, SHP-2 and PTP1B, and VEGF pathway was evaluated. A phosphatase assay was executed to assess SHP-1 activity in bovine aortic endothelial cells (BAECs) following CGP42112A stimulation. Blood flow in the ischemic muscle of DM AT[subscript 2]KO mice recovered faster and up to 80% four weeks following the surgery, compared to a 47% recovery in DM mice. After four weeks, the expression of pro-angiogenic factors (HIF-1α and VEGF) was similar in each group after two weeks but diminished in the DM and remained at a basal state in the DM-AT[subscript 2]KO after four weeks suggesting a faster recovery process in these mice. Akt phosphorylation was also diminished in the DM mice but restored in DM AT[subscript 2]KO after four weeks of ischemia. SHP-1 expression was two times more elevated in DM compared to NDM mice, an effect that was not seen in AT[subscript 2]KO mice. SHP-2 and PTP1B expression did not varied in DM wildtype and AT[subscript 2]KO mice. Also, expression of AT[subscript 1] and AT[subscript 2] receptor was upregulated by diabetes in wildtype mice. Stimulation of AT[subscript 2] receptor in BAECs caused increased SHP-1 activity. Our results suggest that elevated expression of the AT[subscript 2] receptor in DM mice lead to up-regulation/activation of SHP-1, inhibiting the VEGF angiogenic signal causing diminished blood flow reperfusion following ischemia. Maladie des artères périphériques Ischémie Angiogenèse VEGF SHP-1 AT[indice inférieur 2] Peripheral arterial disease Ischemia Angiogenesis AT[subscript 2]
345	Modulação da expressão de VEGF-C por mediador relacionado ao estresse em culturas de carcinomas espinocelulares de boca / Modulation of VEGF-C expression by stress related mediator in oral squamous cell carcinoma cell lines Bruna Maria Rodrigues Vilardi 18 May 2011 (has links) Os mediadores do estresse, epinefrina e norepinefrina, participam da modulação de diversos processos celulares como a proliferação, a migração celular e a apoptose durante a tumorigênese, influenciando assim, o crescimento e a progressão tumoral. A presença de receptores beta-adrenérgicos e sua expressiva resposta ao estímulo do neurohormônio norepinefrina foram identificadas em várias linhagens de células tumorais, incluindo o carcinoma espinocelular de boca. O objetivo deste estudo foi investigar a influência da norepinefrina na expressão do fator de crescimento endotelial vascular do tipo C (VEGF-C) em cultura de células de carcinoma espinocelular de boca que continham receptores beta adrenérgicos. As linhagens celulares (SCC-9 e SCC-25) foram estimuladas com norepinefrina em diferentes concentrações (0,1; 1 e 10 M) e com 1M de propranolol, sendo analisadas após 1, 6 e 24 horas. A expressão gênica e proteica de VEGF-C foram avaliadas, respectivamente, por RT-PCR em tempo real e por ELISA. A produção de RNAm para VEGF-C teve um comportamento irregular, com tendências a variações da expressão gênica (aumento e inibição). A dosagem proteica nos sobrenadantes das culturas de células malignas não refletiu a expressão gênica de VEGF-C. Somente na linhagem SCC-25 ocorreu uma inibição significativa da produção de VEGF-C (p<0,001) pelas células neoplásicas no ensaio de 24 horas após o estímulo com 10M de norepinefrina. Estes resultados sugerem que a expressão de VEGF-C nas linhagens de carcinomas espinocelulares humanos de boca, parece não ser mediado pela norepinefrina, via receptores beta-adrenérgicos. / The mediators of stress, epinephrine and norepinephrine, are involved in modulation of many cellular processes such as proliferation, migration and apoptosis influencing the tumor growth and progression. The presence of beta-adrenergic receptors and their significant response to stimulation of neurohormone norepinephrine has been identified in various tumor cell lines, including oral squamous cell carcinoma. The aim of this study was to investigate the influence of norepinephrine on the expression of vascular endothelial growth factor type C (VEGF-C) in oral squamous carcinomas cell lines that contained beta-adrenergic receptors. Cell lines (SCC-9 and SCC-25) were stimulated with different concentrations of norepinephrine (0.1, 1 and 10 mM) and 1 M of propranolol, and analyzed after 1, 6 and 24 hours. Gene and protein expressions of VEGF-C were evaluated, respectively, by real time PCR and by ELISA. The results showed an irregular behavior of the oral squamous carcinoma cell lines, with trends to increase or to inhibit the VEGF-C gene expression. Dosage protein in supernatant cultures of malignant cells did not reflect the gene expression of VEGF-C. Only in the SCC-25 cell line was detected a significant inhibition of VEGF-C production by neoplastic cells, twenty-four hours after stimulation with 10M norepinephrine (p<0,001). These results suggest that VEGF-C expression in oral squamous carcinomas cell lines seems not to be mediated by norepinephrine through the beta adrenergic receptor pathway. Câncer bucal Estresse. Receptores beta-adrenérgicos Beta adrenergic receptors Oral cancer Stress VEGF-C
346	Modulação da expressão de VEGF-C por mediador relacionado ao estresse em culturas de carcinomas espinocelulares de boca / Modulation of VEGF-C expression by stress related mediator in oral squamous cell carcinoma cell lines Vilardi, Bruna Maria Rodrigues 18 May 2011 (has links) Os mediadores do estresse, epinefrina e norepinefrina, participam da modulação de diversos processos celulares como a proliferação, a migração celular e a apoptose durante a tumorigênese, influenciando assim, o crescimento e a progressão tumoral. A presença de receptores beta-adrenérgicos e sua expressiva resposta ao estímulo do neurohormônio norepinefrina foram identificadas em várias linhagens de células tumorais, incluindo o carcinoma espinocelular de boca. O objetivo deste estudo foi investigar a influência da norepinefrina na expressão do fator de crescimento endotelial vascular do tipo C (VEGF-C) em cultura de células de carcinoma espinocelular de boca que continham receptores beta adrenérgicos. As linhagens celulares (SCC-9 e SCC-25) foram estimuladas com norepinefrina em diferentes concentrações (0,1; 1 e 10 M) e com 1M de propranolol, sendo analisadas após 1, 6 e 24 horas. A expressão gênica e proteica de VEGF-C foram avaliadas, respectivamente, por RT-PCR em tempo real e por ELISA. A produção de RNAm para VEGF-C teve um comportamento irregular, com tendências a variações da expressão gênica (aumento e inibição). A dosagem proteica nos sobrenadantes das culturas de células malignas não refletiu a expressão gênica de VEGF-C. Somente na linhagem SCC-25 ocorreu uma inibição significativa da produção de VEGF-C (p<0,001) pelas células neoplásicas no ensaio de 24 horas após o estímulo com 10M de norepinefrina. Estes resultados sugerem que a expressão de VEGF-C nas linhagens de carcinomas espinocelulares humanos de boca, parece não ser mediado pela norepinefrina, via receptores beta-adrenérgicos. / The mediators of stress, epinephrine and norepinephrine, are involved in modulation of many cellular processes such as proliferation, migration and apoptosis influencing the tumor growth and progression. The presence of beta-adrenergic receptors and their significant response to stimulation of neurohormone norepinephrine has been identified in various tumor cell lines, including oral squamous cell carcinoma. The aim of this study was to investigate the influence of norepinephrine on the expression of vascular endothelial growth factor type C (VEGF-C) in oral squamous carcinomas cell lines that contained beta-adrenergic receptors. Cell lines (SCC-9 and SCC-25) were stimulated with different concentrations of norepinephrine (0.1, 1 and 10 mM) and 1 M of propranolol, and analyzed after 1, 6 and 24 hours. Gene and protein expressions of VEGF-C were evaluated, respectively, by real time PCR and by ELISA. The results showed an irregular behavior of the oral squamous carcinoma cell lines, with trends to increase or to inhibit the VEGF-C gene expression. Dosage protein in supernatant cultures of malignant cells did not reflect the gene expression of VEGF-C. Only in the SCC-25 cell line was detected a significant inhibition of VEGF-C production by neoplastic cells, twenty-four hours after stimulation with 10M norepinephrine (p<0,001). These results suggest that VEGF-C expression in oral squamous carcinomas cell lines seems not to be mediated by norepinephrine through the beta adrenergic receptor pathway. Beta adrenergic receptors Câncer bucal Estresse. Oral cancer Receptores beta-adrenérgicos Stress VEGF-C
347	OVEREXPRESSION OR REDUCED BIOAVAILABILITY OF VEGF DURING MOUSE POST-NATAL INTESTINAL DEVELOPMENT ALTERS THE PROLIFERATION OF INTESTINAL STEM CELL PROGENITOR CELLS Garcia Mojica, Salvador 01 June 2014 (has links) Vascular Endothelial Growth Factor (VEGF) is a highly conserved ligand that is involved in the regulation of angiogenesis and vasculogenesis, however, alternative roles of the ligand have been emerging. Organisms such as jellyfish and Drosophila contain VEGF homologs, yet they do not possess endothelial cells or a vascular system indicating that VEGF might have other primitive roles. In this current study we investigated how VEGF affects the post-natal development of the intestinal epithelial by either overexpressing VEGF or by reducing the bioavailability of VEGF with the overexpression of soluble VEGF receptor (sFLT-1) within the gastrointestinal tract. After three weeks of VEGF overexpression, mutant mice displayed an increase in villus height and proliferation in the transit-amplifying zone with the decrease of crypts per measured length and Lgr5 expression. On the other hand, sFLT-1 overexpressing mice had an increase in crypt depth with a decrease in villus height, proliferation in the transit-amplifying zone, crypts per measured length and reduced expression of Dll1 and Bmp4. Overall the availability of VEGF has the ability to alter the proliferation of progenitor cells in the crypt by either a direct or indirect signals. These studies reveal that by some means VEGF is altering the developing post-natal intestinal epithelium and proliferation. Largely, elucidating the interaction between VEGF and intestinal stem cells in intestinal development and differentiation may help to advance intestinal stem cell therapies in intestinal dysfunction or disease Vascular Endothelial Growth Factor VEGF sFLT-1 Intestine Intestinal Stem Cells Transit-Amplifying Zone Biology Developmental Biology
348	Détectabilité des matériels d'embolisation vasculaire contrôlée par IRM. Jassar, H. 22 September 2009 (has links) (PDF) L'embolisation artérielle a récemment émergé sur le plan interventionnel comme un traitement sûr et efficace pour arrêter une hémorragie ou induire la dévascularisation d'un tissu cible. La visualisation directe des agents d'occlusions vasculaires n'est pas toujours possible. L'estimation de leur position dans la branche vasculaire en se basant sur la distribution de produit opaque aux rayons X est partiellement incorrecte. Un marquage des agents d'occlusion vasculaire est souhaitable pour leur suivi par IRM pendant l'intervention ou a posteriori, ce, notamment en raison de la diffusion de l'IRM comme modalité d'imagerie anatomique et interventionnelle. Dans ce travail, plusieurs protocoles ont été établis pour repérer des agents d'occlusion vasculaire marqués avec le SPIO, in situ, in vitro et dans des « conditions » in vivo, sous IRM 1,5T et 3T. Les agents d'occlusion étudiés sont des microsphères de trisacryl (Embosphère®), et des microparticules ou microcapsules utilisées éventuellement comme vecteurs de principes actifs : parmi celles-ci, des microsphères gonflables (Hépasphère™) non dégradables ont été marquées, et des microbilles d'alginate et des systèmes d'émulsions dégradables réalisés par nos soins. L'établissement de protocoles de détectabilité sous IRM a impliqué le choix de séquences et l'optimisation des paramètres de ces séquences, le choix de l'antenne, ainsi que la mise au point d'une quantité suffisante de marqueur dans les agents d'occlusion afin qu'ils soient visibles à l'IRM. Une méthodologie de mesure de faible variation de l'intensité du signal des images IRM a été développée. Un modèle expérimental in vitro a été conçu avec la présence des microparticules marquées dans un environnement simulant grossièrement une vascularisation tumorale et son drainage veineux. La fixation des immunoglobulines (IgG1), équivalentes aux anti-VEGF, sur des microsphères (Hépasphères™) a été étudiée. Enfin, les propriétés mécaniques et électriques des systèmes de microémulsions ont été explorées par ultrasons et par impédancemétrie. [SPI] Engineering Sciences
349	Réponse des ostéoblastes à des stimulations physiques basées sur des contraintes mécaniques basses amplitudes hautes fréquences. Implication en ingénierie tissulaire Dumas, Virginie 19 March 2010 (has links) (PDF) Les mécanismes par lesquels les charges mécaniques et électriques agissent sur le tissu osseux dans son ensemble, et sur les ostéoblastes, en particulier, sont encore mal compris. La réponse des ostéoblastes soumis à un seul type de stimulus physique a été comparée à celle obtenue par des combinaisons de plusieurs signaux mécaniques et/ou électriques. Dans la perspective d'améliorer l'ostéointégration des biomatériaux, nos études ont porté principalement sur les deux composants essentiels pour le succès de la greffe d'un biomatériau : la matrice extracellulaire (MEC) qui sert d'interface entre le biomatériau et l'hôte ainsi que les facteurs angiogéniques. Nous avons étudié les réponses des ostéoblastes à des contraintes mécaniques complexes basées sur des signaux de " basse amplitude haute fréquence " (BAHF) appliquées à un modèle de culture 3D (hydroxyapatite macroporeux). Nous montrons donc qu'une stimulation mécanique simple (3Hz) peut être potentialisée par des BAHF appropriées (25 Hz). Un dispositif a été développé pour appliquer des contraintes mécaniques très BAHF sur des modèles de culture 2D. La synthèse de la MEC est favorisée et ses propriétés ostéogéniques sont augmentées sous BAHF. Les BAHF n'ont pas d'effet sur le VEGF. Un autre dispositif a permis d'appliquer un champ électrique aux cultures cellulaires. Quelques paramètres nous indiquent que les cellules perçoivent le champ électrique, mais nous retenons que le VEGF n'est pas affecté. En revanche, la combinaison de ces stimulations physiques (contrainte mécanique très BAHF et champ électrique) augmente l'expression de plusieurs facteurs impliqués dans l'angiogénèse (VEGF, TGFβ1, FGF2...). Les sollicitations complexes définies dans cette thèse pourraient être un outil pour fonctionnaliser un substitut osseux cellularisé Ostéoblastes Matrice extra-cellulaire Vegf Contrainte mécanique Basse amplitude haute fréquence Champ électrique Biomatériaux
350	Angiogenic growth factors : mechanism of action and function in vascular development Rolny, Charlotte January 2003 (has links) <p>The mature vascular system is composed of a network of blood vessels organized into arteries, capillaries, and veins. The vessels are composed of endothelial cells surrounded by smooth muscle cells and embedded in a specialized basement membrane. The demand for oxygen during embryonal development regulates vessel formation through a process denoted vasculogenesis. These primitive vessels are further remodeled through proliferation, sprouting and migration of endothelial cells in a process denoted angiogenesis. Vasculogenesis and angiogenes are regulated by growth factors, such as vascular endothelial growth factor (VEGF) and platelet-derived growth factor (PDGF).</p><p>To study vasculogenesis and angiogenesis, we employed differentiating embryonal stem cells (embryoid bodies). Vascularization of embryoid bodies follows a vascular pattern highly reminiscent of the in vivo pattern, leading to expression of a set of endothelial cell markers. Treatment of the embryoid bodies with different angiogenic growth factors led to distinct vascular morphologies. Expression of VEGF receptor-2 was an absolute demand for proper vascular development. PDGF-BB was shown to be potent in regulating vascular plexus formation in embryoid bodies. PDGF-BB induced capillary formation by promoting endothelial cell migration and differentiation. Hypoxia is a powerful inducer of angiogenic growth factors, such as VEGF-A, leading to angiogenesis. Hypoxia treatment induced an extensive vascular network that covered the entire embryoid body. Hypoxia-induced vascularization still occurred when VEGF receptor function was blocked, indicating that other pathway than VEGF/VEGF receptors may be critical for hypoxia-driven vessel formation. </p><p>Heparan sulfated proteoglycans (HSPGs) are present in the vascular basement membrane and are known to modulate angiogenic growth factor effects on endothelial cells in normal and pathological conditions such as tumor growth and formation of metastases. We employed heparin as an HSPG equivalent to show that PDGF-BB stimulation of PDGF a-receptor phosphorylation was augmented by heparin, resulting in increased mitogen activated protein kinase (MAPK) and protein kinase B PKB/Akt activation, and enhanced cellular migration towards PDGF-BB.</p> Molecular medicine PDGF-BB VEGF angiogenesis hypoxia migration heparin Molekylärmedicin

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