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241	THE ROLE OF RIC8A DURING EARLY VERTEBRATE DEVELOPMENT Su, Baihao January 2018 (has links) The Wnts, a family of secreted glycoprotein ligands, act through the frizzled (Fz) receptor, a family of seven-transmembrane (7TM) receptor proteins, to mediate intracellular signaling pathways that regulate cell fate determination, cell migration, or both. Whereas many molecular components of the Wnt signal transduction cascade have been identified, it remains unclear how the signal is transduced from the Fz receptors to the cytoplasm. To address this important question, a membrane-based yeast two-hybrid (MbY2H) screen was performed to identify potential Fz-interacting proteins. For this screen, the Frizzled7 (Fz7) protein was used as the bait and a mouse brain library was used the prey. This screen identified resistance to inhibitors of cholinesterase 8 homolog A (Ric8A), a 542–amino acid cytoplasmic protein, along with other proteins as putative Fz7-binding proteins. Ric8A had been studied previously in C. elegans and D. melanogaster for its function in regulating asymmetric cell division as a receptor-independent guanine nucleotide exchange factor (GEF) for Gα proteins. Additional studies in M. musculus and X. laevis further uncovered a role for this protein during gastrulation and neurulation; however, the mechanisms by which Ric8A regulated these processes remained unclear. In this thesis, I show Ric8A to be a bona fide binding partner for both Fz7; that Ric8A can also bind to the phosphoprotein Dishevelled (Dvl); and that both its interaction with Fz7 and Dvl is Wnt-regulated. The spatial and temporal mRNA expression pattern of the Xenopus homologue of Ric8A suggests a potential role in regulating Wnt signaling. The Xenopus homologue of Ric8A was cloned and gain-of-function and loss-of-function approaches in Xenopus uncovered a role for Ric8A in gastrulation and neural tube closure. Additionally, we found inhibition of Ric8A function mechanistically prevents activation of Rac1 which is required downstream of Wnt/Fz signaling during gastrulation. Overall, this study uncovers a novel regulator of Wnt signaling during early development / Biology Developmental Biology Biology, Molecular Biology Blastopore Closure Convergent Extension Gastrulation Neural Tube Closure Rho Gtpase Wnt
242	Coordination by Cdc42 of actin, contractility, and adhesion for melanoblast movement in mouse skin Woodham, E.F., Paul, N.R., Tyrrell, B., Spence, H.J., Swaminathan, Karthic, Scribner, M.R., Giampazolias, E., Hedley, A., Clark, W., Kage, F., Marston, D.J., Hahn, K.M., Tait, S.W.G., Larue, L., Brakebusch, C.H., Insall, R.H., Machesky, L.M. 28 February 2020 (has links) Yes / The individual molecular pathways downstream of Cdc42, Rac, and Rho GTPases are well documented, but we know surprisingly little about how these pathways are coordinated when cells move in a complex environment in vivo. In the developing embryo, melanoblasts originating from the neural crest must traverse the dermis to reach the epidermis of the skin and hair follicles. We previously established that Rac1 signals via Scar/WAVE and Arp2/3 to effect pseudopod extension and migration of melanoblasts in skin. Here we show that RhoA is redundant in the melanocyte lineage but that Cdc42 coordinates multiple motility systems independent of Rac1. Similar to Rac1 knockouts, Cdc42 null mice displayed a severe loss of pigmentation, and melanoblasts showed cell-cycle progression, migration, and cytokinesis defects. However, unlike Rac1 knockouts, Cdc42 null melanoblasts were elongated and displayed large, bulky pseudopods with dynamic actin bursts. Despite assuming an elongated shape usually associated with fast mesenchymal motility, Cdc42 knockout melanoblasts migrated slowly and inefficiently in the epidermis, with nearly static pseudopods. Although much of the basic actin machinery was intact, Cdc42 null cells lacked the ability to polarize their Golgi and coordinate motility systems for efficient movement. Loss of Cdc42 de-coupled three main systems: actin assembly via the formin FMNL2 and Arp2/3, active myosin-II localization, and integrin-based adhesion dynamics. / Cancer Research UK (to L.M.M. [A17196], R.H.I. [A19257], and S.W.G.T.) and NIH grants P01-GM103723 and P41-EB002025 (to K.M.H.). N.R.P. is supported by a Pancreatic Cancer Research Fund grant (to L.M.M.). Funding to Prof. Rottner by the Deutsche Forschungsgemeinschaft (grant RO2414/3-2). Rho GTPases Migration Actin cytoskeleton Cell motility Melanocyte Myosin Actin Adhesion Integrin Cdc42
243	Spatiotemporal Regulation of Cdc42 Activity Directs Specific Membrane Trafficking Events at Distinct Cell Sites: Campbell, Bethany F. January 2024 (has links) Thesis advisor: Maitreyi E. Das / Polarization allows cells to form and maintain morphologies necessary for their diverse functions during processes such as growth, division, differentiation, and migration. Signaling proteins such as the family of small Rho GTPases promote polarization by spatiotemporally regulating cytoskeleton dynamics and coordinating membrane trafficking. Here, we investigate and define roles of the Rho GTPase Cdc42 in promoting polarization in S. pombe. As fission yeast, S. pombe cells grow from their cell ends during interphase and divide by medial fission to produce two new daughter cells. As cell-walled organisms, growth and division require intricate remodeling and expansion of the cell wall via incorporation of new membrane and proteins at these polarized sites. Thus, growth and division require specific sequences of membrane trafficking events to deliver and remove cargo at appropriate times and locations. During cytokinesis, fission yeast cells divide by synthesizing new cell wall called the septum to medially bisect the cell. The septum is synthesized behind the actomyosin ring to aid its constriction. Once ring constriction completes and the septum matures, the septum is partially digested to physically separate the daughter cells. Previous work has shown that Cdc42 promotes the delivery of specific but not all septum-synthesizing enzymes as well as septum-digesting enzymes, but it was not known how Cdc42 activation is regulated at the division site to temporally coordinate these processes. Here, we show that the Cdc42 GAPs Rga4 and Rga6 promote proper septum synthesis and timely cell separation by locally decreasing Cdc42 activation during late cytokinesis. This work also reveals a role for Cdc42 in regulating clathrin-mediated endocytosis, both at the division site as well as at growing cell ends. To further explore this role, we systematically examined the behaviors of endocytic actin patches in mutants of Cdc42 regulators and compared these dynamics to wild-type controls. This characterization led to the observation that endocytic patches are best formed to induce successful patch internalization at sites of polarization where Cdc42 is active. In this work, we show that Cdc42 activation promotes proper endocytic patch behavior in a dose-dependent manner and that Cdc42 regulates endocytosis via its downstream effector, the Pak1 kinase. We also demonstrate that Cdc42 and Pak1 activity promote endocytosis through at least two pathways which regulate branched actin formation. First, we show that Cdc42 and Pak1 promote proper endocytic actin patch formation. Secondly, we show that Pak1-mediated phosphorylation of the endocytic Type I myosin promotes timely internalization of endocytic actin patches. / Thesis (PhD) — Boston College, 2024. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Biology. cell polarity clathrin-mediated endocytosis cytokinesis membrane trafficking small Rho GTPase Cdc42 Type I myosin
244	Rôle de la petite GTPase Rho et de ses affecteurs dans le programme de mort cellulaire induit par la protéine E4ORF4 de l'adénovirus Smadja-Lamère, Nicolas 16 April 2018 (has links) La protéine E4orf4 de l'adénovirus de type 2 induit un mécanisme de mort cellulaire alternatif indépendant des caspases et qui résiste à l'oncogène Bcl-2. E4orf4 constitue donc un outil moléculaire puissant pour étudier de nouveaux effecteurs impliqués dans la mort cellulaire. À mon arrivée dans le laboratoire, il avait été démontré qu'E4orf4 usurpait l'activité des tyrosine kinases de la famille Src afin de réorganiser le cytosquelette d'actine et que ce processus était corrélé avec son activité cytotoxique. Par contre, la nature des modifications de la dynamique de l'actine ainsi que le mécanisme moléculaire impliqué étaient inconnus. L'hypothèse à la base de mes travaux est qu'E4orf4 désorganise le réseau d'actine en manipulant l'activité des Rho GTPases et que le débalancement de la dynamique de l'actine qui en résulte engage la cellule dans un programme de mort cellulaire alternatif. Mes travaux indiquent qu'E4orf4 active le sentier Src-RhoA-ROCK, ce qui stimule la contractilité cellulaire en activant la myosine II. L'activité de cette dernière est essentielle, car son inhibition bloque le programme de mort cellulaire induit par E4orf4. Par conséquent, mes travaux ont contribué à établir un lien fonctionnel entre la dynamique de l'actine et la mort cellulaire. De plus, mes résultats indiquent que la stimulation du sentier Src-RhoA -ROCK par E4orf4 contribue à activer la MAP kinase JNK qui est nécessaire pour phosphoryler la sérine 178 de paxilline. Mes résultats montrent que la phosphorylation de cette sérine de paxilline diminue sa mobilité, contribuant ainsi à stabiliser les plaques d'adhérence en aval d'E4orf4. En outre, la phosphorylation de la sérine 178 de paxilline est essentielle à l'activité cytotoxique d'E4orf4, car son iphibition interfère avec la réorganisaton du cytosquelette d'actine et la condensation nucléaire induites par E4orf4. Ainsi, mes travaux suggèrent que JNK coopère avec la myosine II pour perturber la dynamique de l'adhérence et de l'actine en aval d'E4orf4. En conséquence, je propose qu'E4orf4 induit l'axe de signalisation Src-RhoA-ROCK pour générer un stress mécanique via la coordination des dynamiques de l'adhérence et de l'actine qui culmine par la mort programmée de la cellule. GTPases rho MAP kinases JNK Apoptose Protéine E4orf4 de l'adénovirus Actine Myosine Sérine
245	Deux tests de détection de rupture dans la copule d'observations multivariées Rohmer, Tom January 2014 (has links) Résumé : Il est bien connu que les lois marginales d'un vecteur aléatoire ne suffisent pas à caractériser sa distribution. Lorsque les lois marginales du vecteur aléatoire sont continues, le théorème de Sklar garantit l'existence et l'unicité d'une fonction appelée copule, caractérisant la dépendance entre les composantes du vecteur. La loi du vecteur aléatoire est parfaitement définie par la donnée des lois marginales et de la copule. Dans ce travail de thèse, nous proposons deux tests non paramétriques de détection de ruptures dans la distribution d’observations multivariées, particulièrement sensibles à des changements dans la copule des observations. Ils améliorent tous deux des propositions récentes et donnent lieu à des tests plus puissants que leurs prédécesseurs pour des classes d’alternatives pertinentes. Des simulations de Monte Carlo illustrent les performances de ces tests sur des échantillons de taille modérée. Le premier test est fondé sur une statistique à la Cramér-von Mises construite à partir du processus de copule empirique séquentiel. Une procédure de rééchantillonnage à base de multiplicateurs est proposée pour la statistique de test ; sa validité asymptotique sous l’hypothèse nulle est démontrée sous des conditions de mélange fort sur les données. Le second test se focalise sur la détection d’un changement dans le rho de Spearman multivarié des observations. Bien que moins général, il présente de meilleurs résultats en terme de puissance que le premier test pour les alternatives caractérisées par un changement dans le rho de Spearman. Deux stratégies de calcul de la valeur p sont comparées théoriquement et empiriquement : l’une utilise un rééchantillonnage de la statistique, l’autre est fondée sur une estimation de la loi limite de la statistique de test. // Abstract : It is very well-known that the marginal distributions of a random vector do not characterize the distribution of the random vector. When the marginal distributions are continuous, the work of Sklar ensures the existence and uniqueness of a function called copula which can be regarded as capturing the dependence between the components of the random vector. The cumulative distribution function of the vector can then be rewritten using only the copula and the marginal cumulative distribution functions. In this work, we propose two non-parametric tests for change-point detection, particularly sensitive to changes in the copula of multivariate time series. They improve on recent propositions and are more powerful for relevant alternatives involving a change in the copula. The finite-sample behavior of these tests is investigated through Monte Carlo experiments. The first test is based on a Cramér-von Mises statistic and on the sequential empirical copula process. A multiplier resampling scheme is suggested and its asymptotic validity under the null hypothesis is demonstrated under strong mixing conditions. The second test focuses on the detection of a change in Spearman’s rho. Monte Carlo simulations reveal that this test is more powerful than the first test for alternatives characterized by a change in Spearman’s rho. Two approaches to compute approximate p-values for the test are studied empirically and theoretically. The first one is based on resampling, the second one consists of estimating the asymptotic null distribution of the test statistic. Tests non-paramétriques Copules Simulations de Monte Carlo Données fortement mélangeantes Rho de Spearman multidimensionnel Non-parametric tests Strong mixing conditions Sequential empirical copula Multipliers bootstrap Multidimensional Spearman’s rho Monte Carlo experiments
246	Brain tumor and brain endothelial cells' response to ionizing radiation and phytochemical treatments McLaughlin, Nancy 01 1900 (has links) Le glioblastome multiforme (GBM) représente la tumeur cérébrale primaire la plus agressive et la plus vascularisée chez l’adulte. La survie médiane après le diagnostic est de moins d’un an en l’absence de traitement. Malheureusement, 90% des patients traités avec de la radiothérapie après la résection chirurgicale d’un GBM développent une récidive tumorale. Récemment, le traitement des GBM avec radiothérapie et témozolomide, un agent reconnu pour ses propriétés antiangiogéniques, a permis de prolonger la survie médiane à 14,6 mois. Des efforts sont déployés pour identifier des substances naturelles capables d’inhiber, de retarder ou de renverser le processus de carcinogenèse. Epigallocatechin-3-gallate (EGCG), un polyphénol retrouvé dans le thé vert, est reconnu pour ses propriétés anticancéreuses et antiangiogéniques. L’EGCG pourrait sensibiliser les cellules tumorales cérébrales et les cellules endothéliales dérivées des tumeurs aux traitements conventionnels. Le chapitre II décrit la première partie de ce projet de doctorat. Nous avons tenté de déterminer si l’EGCG pourrait sensibiliser la réponse des GBM à l’irradiation (IR) et si des marqueurs moléculaires spécifiques sont impliqués. Nous avons documenté que les cellules U-87 étaient relativement radiorésistantes et que Survivin, une protéine inhibitrice de l’apoptose, pourrait être impliquée dans la radiorésistance des GBM. Aussi, nous avons démontré que le pré-traitement des cellules U-87 avec de l’EGCG pourrait annuler l’effet cytoprotecteur d’une surexpression de Survivin et potentialiser l’effet cytoréducteur de l’IR. Au chapitre III, nous avons caractérisé l’impact de l’IR sur la survie de cellules endothéliales microvasculaires cérébrales humaines (HBMEC) et nous avons déterminé si l’EGCG pouvait optimiser cet effet. Bien que les traitements individuels avec l’EGCG et l’IR diminuaient la survie des HBMEC, le traitement combiné diminuait de façon synergique la survie cellulaire. Nous avons documenté que le traitement combiné augmentait la mort cellulaire, plus spécifiquement la nécrose. Au chapitre IV, nous avons investigué l’impact de l’IR sur les fonctions angiogéniques des HBMEC résistantes à l’IR, notamment la prolifération cellulaire, la migration cellulaire en présence de facteurs de croissance dérivés des tumeurs cérébrales, et la capacité de tubulogenèse. La voie de signalisation des Rho a aussi été étudiée en relation avec les propriétés angiogéniques des HBMEC radiorésistantes. Nos données suggèrent que l’IR altère significativement les propriétés angiogéniques des HBMEC. La réponse aux facteurs importants pour la croissance tumorale et l’angiogenèse ainsi que la tubulogenèse sont atténuées dans ces cellules. En conclusion, ce projet de doctorat confirme les propriétés cytoréductrices de l’IR sur les gliomes malins et propose un nouveau mécanisme pour expliquer la radiorésistance des GBM. Ce projet documente pour la première fois l’effet cytotoxique de l’IR sur les HBMEC. Aussi, ce projet reconnaît l’existence de HBMEC radiorésistantes et caractérise leurs fonctions angiogéniques altérées. La combinaison de molécules naturelles anticancéreuses et antiangiogéniques telles que l’EGCG avec de la radiothérapie pourrait améliorer l’effet de l’IR sur les cellules tumorales et sur les cellules endothéliales associées, possiblement en augmentant la mort cellulaire. Cette thèse supporte l’intégration de nutriments avec propriétés anticancéreuses et antiangiogéniques dans le traitement des gliomes malins pour sensibiliser les cellules tumorales et endothéliales aux traitements conventionnels. / Glioblastoma multiform (GBM) represents the most aggressive and vascularised primary cerebral neoplasm in adults. Median length of survival without further therapy is usually less than one year from the time of diagnosis. Unfortunately, 90% of patients receiving radiotherapy following GBM resection develop a tumor recurrence. More recently, treatment of GBM with combined radiotherapy and temozolomide, an agent recognized for its antiangiogenic activity, increased the median survival to 14,6 months. Efforts have been oriented towards identifying naturally occurring substances capable of inhibiting, delaying or reversing the multi-stage carcinogenesis process. Epigallocatechin-3-gallate (EGCG), a green tea polyphenol, has been recognized for its anticancerous and antiangiogenic property. EGCG may represent a potential agent capable of sensitizing brain tumor cells and their derived endothelial cells (ECs) to conventional treatments. In chapter II, the first part of this doctorate project aimed at determining if EGCG, in synergy with radiotherapy, can sensitize GBM’s response to radiation and whether specific molecular markers are involved. We documented that U-87 cells were relatively radioresistant and that Survivin, an inhibitor of apoptosis protein, may be involved in GBM’s radioresistance. We also found that pre-treatment of U-87 cells with EGCG could overcome the cytoprotective effect of Survivin overexpression and potentiate the cytoreductive effect of irradiation (IR). In chapter III, we characterized the impact of IR on human brain microvascular endothelial cell (HBMEC) survival and determined whether EGCG, could optimize this effect. We found that although EGCG treatment and IR individually decreased HBMEC survival, the combined treatment synergistically reduced survival. We documented that the combined treatment increased cell death, more specifically necrosis. In chapter IV, we investigated the impact of IR exposure on the angiogenic functions i.e. cell proliferation, cell migration in response to brain tumor-derived growth factors, and capacity for tubulogenesis of surviving human brain tumor-derived ECs. The Rho signalling pathway was also investigated in relation to the functional properties of radioresistant HBMEC. Our data suggests that IR significantly alters radioresistant HBMEC migration response to tumor-secreted growth factors and tubulogenesis. Response to growth factors important for tumor expansion and angiogenesis is significantly attenuated in these cells. In conclusion, this doctorate project confirmed IR’s cytoreductive properties on malignant gliomas. We proposed a novel mechanism to explain GBMs’ radioresistance. This project documented for the first time IR’s cytotoxic effect in HBMEC. It also described the existence of radioresistant HBMEC and characterized their altered angiogenic functions. The combination of natural anticancerous and antiangiogenic molecules such as EGCG with radiotherapy could improve IR’s effect on human malignant glioma cells and microvascular ECs, especially through increased necrosis of HBMEC. The thesis supports integrating nutrients bearing anticancerous and antiangiogenic properties, such as EGCG, in the management of gliomas to sensitize tumor and tumor-associated ECs to conventional therapies. Astrocytoma Angiogenesis Epigallocathechin-3-gallate Glioblastoma multiforme Irradiation Radiotherapy Rho signaling pathway Survivin Astrocytome Angiogénèse Épigallocatechin-3-gallate Glioblastoma multiforme Irradiation Radiothérapie Voie de signalisation Rho Survivin
247	Efeitos dos inibidores de NF Kappa-B e Rho Quinase em um modelo de asma animal: comparação com o tratamento com corticosteroides / Effects of NFkB and rho-quinase inhibitors in an animal asthma model: comparison to corticosteroid treatment Souza, Flávia Castro Ribas de 15 December 2017 (has links) Embora a grande maioria dos pacientes com asma tenha controle com o padrão de tratamento com corticosteroides, 5 a 10% destes asmáticos ainda desenvolvem algumas formas graves da doença e são considerados pacientes difíceis de controlar. A ativação do NFkB contribui para a manutenção e desenvolvimento de inflamação pulmonar crônica na fisiopatologia da asma. O éster fenetilico do ácido cafeico (CAPE), um componente ativo de própolis das colmeias de abelhas, é conhecido por ter propriedades antiinflamatórias e imunomoduladoras. É conhecido como um potente e um inibidor específico da ativação de NFk B. Nós anteriormente mostramos que Y27632, um inibidor de Rho quinase, atenuou a resposta pulmonar das vias aéreas, inflamação e remodelamento. Para o nosso conhecimento, tratamentos com os inibidores de NFk B ou Rho-quinase em comparação com o uso de corticosteroides não foram previamente investigados em um modelo animal de inflamação pulmonar crônica alérgica. MÉTODOS: Trinta camundongos BALB/C machos (20 a 25g) foram divididos em cinco grupos (n=6 em cada grupo): SAL (instilado com solução salina), OVA (expostos à ovalbumina), OVA-CAPE (expostos à ovalbumina e tratados com CAPE), OVA-RHO (expostos à ovalbumina e tratados com inibidor de Rho), OVA-CORT (expostos à ovalbumina e tratados com corticosteróide). Os animais foram sensibilizados para ovalbumina durante 28 dias e os controles receberam solução salina. A administração de corticosteróide (1mg/Kg/dia) e CAPE (10mg/Kg/dia) foi feita por via intraperitoneal e Y-27632 (10 mg/kg) administrado por via intranasal, todos nos dias 22, 24, 26 e 28 do protocolo experimental. Vinte e quatro horas após a conclusão do protocolo experimental, os animais foram submetidos a uma avaliação da curva de resposta à dose à metacolina, consideramos as respostas máximas da Resistência ao Sistema Respiratório (Rrs) e Elastância (Ers) às 24 horas após o último desafio com ovalbumina (respostas basais e máximas após a metacolina desafio 3, 30 e 300mg/mL). Posteriormente, os pulmões foram removidos e a análise histológica foi realizada usando morfometria. RESULTADOS: não houve diferenças nos valores basais de todos os grupos. expostos à ovalbumina Houve um aumento em Rrs e Ers após o desafio da metacolina em comparação com o grupo SAL (p < 0,05). No grupo exposto ao OVA, os tratamentos com CAPE, CORT e RHO reduziram a resposta máxima de Ers em relação ao OVA (p < 0,05). Em relação ao tratamento com somente CAPE atenuou a resposta máxima de Rrs em relação ao OVA (p < 0,05). Houve diminuição nos eosinófilos, conteúdo de fibras de colágeno, células positivas para iNOS, MMP-9, TIMP-1 em grupos OVA-CAPE, OVA-CORT e OVA-RHO em comparação com os animais sensibilizados (grupo OVA) (p < 0,05). CONCLUSÃO: a inibição de NFkB e Rho-quinase contribuiu para o controle da hiperresponsividade, inflamação, processo de remodelamento da matriz extracelular e ativação do estresse oxidativo. Embora os inibidores de NFkB e Rho-quinase sejam uma alternativa ao tratamento da asma, são necessários mais estudos / Although the great majority of asthma patients obtain control with the gold standard treatment using corticosteroids, 5 to 10% of these asthmatics still develop some severe forms of the disease, called difficult to control patients. Activation of NFk B contributes to the maintenance and development of chronic lung inflammation in pathophysiology of asthma. Caffeic acid phenethyl ester (CAPE), an active component of propolis from honeybee hives, is known to have anti-inflammatory and immunomodulatory properties. It is known as a potent and a specific inhibitor of NFk B activation. We previously have shown that Y27632, a Rho-quinase inhibitor, attenuated airway lung responsiveness, inflammation and remodeling. To our knowledge, treatments with the NFk B or Rho-kinase inhibitors compared to the use of corticosteroids have not been previously investigated in an animal model of chronic allergic lung inflammation. METHODS: Thirty male BALB/c mice (20 to 25g) were divided into five groups (n=6 in each group): SAL (saline-instilled), OVA (exposed-ovalbumin), OVA-CAPE (exposedovalbumin and treated with CAPE), OVA-RHO (exposed-ovalbumin and treated with Rho inhibitor), OVA-CORT (exposed-ovalbumin and treated with corticosteroid). The BALB/c mice were sensitized to ovalbumin for 28 days and controls received saline. The administration of corticosteroid (1mg/Kg/day) and CAPE (10mg/Kg/day) was made intraperitoneally and Y-27632 (10mg/kg) was intranasally, all on days 22, 24, 26 and 28 of the experimental protocol. Twentyfour hours after completion of the experimental protocol, animals were subject to an evaluation of dose response curve to methacholine. We considered the maximal responses of respiratory system resistance (Rrs) and elastance (Ers) 24 hours after the last challenge with ovalbumin (baseline and maximal responses after metacholine challenge 3, 30 and 300mg/mL). Afterwards, lungs were removed and histological analysis was performed using morphometry. RESULTS: There were no differences on baseline values of all groups. Ovalbumin-exposed mice had an increase in Rrs and Ers after methacholine challenge compared to SAL group (p < 0.05). In OVA-exposed groups, the treatments with CAPE, CORT and RHO reduced maximal response of %Ers compared to OVA (p < 0.05). In relation to %Rrs only CAPE treatment attenuated the maximal response compared to OVA (p < 0.05). There was a decrease in eosinophils, collagen fibers content, iNOS, MMP-9, TIMP-1 positive cells in OVACAPE, OVA-CORT and OVA-RHO groups compared to only sensitized animals (OVA group) (p < 0.05). CONCLUSION: NFkB and Rho-quinase inhibition contributes to the control of hyperresponsiveness, inflammation, extracellular matrix remodeling process and oxidative stress activation. Although NFkB and Rho-quinase inhibitors were an alternative to asthma treatment, more studies are needed Adrenal cortex hormones Airway remodeling Asma Asthma Caffeic acid phenethyl ester Camundongos Corticosteroides Éster fenetilico do ácido cafeico Mice Quinases associadas a rho Remodelação das vias aéreas Rho-associated kinases
248	O papel de RhoA e Rac1 GTPases nas respostas celulares após danos no DNA induzidos por radiação ionizante gama / The role of RhoA and Rac1 GTPases in cellular responses after DNA damage induced by ionizing gamma radiation Osaki, Juliana Harumi 18 June 2015 (has links) O mecanismo pelo qual uma célula responde a algum dano no seu material genético é extremamente importante. Isto ocorre pela rápida ativação da maquinaria de reparo de danos no DNA, a qual é composta por uma rede intrincada de sinalização proteica, culminando no reparo do DNA; porém se o dano for irreparável ocorre ativação de mecanismos de morte celular. RhoA,e Rac1 pertencem a família das pequenas proteínas sinalizadoras Rho GTPases, as quais atuam como interruptores moleculares ciclando entre estado ativo (ligada a GTP) e inativo (ligada a GDP). Os componentes desta família estão relacionados ao controle dos mais diversos processos celulares como, por exemplo, remodelamento do citoesqueleto, migração, adesão, endocitose, progressão do ciclo celular e oncogênese. No entanto, apesar das proteínas Rho GTPases estarem envolvidas em um amplo espectro de atividades biológicas, há poucas informações sobre seu papel na manutenção da integridade genômica quando células são submetidas a algum agente genotóxico. Para investigar o envolvimento das GTPases RhoA e Rac1 nas respostas de células submetidas a radiação gama, foram gerados, a partir de células de carcinoma de cervix humano - HeLa, sublinhagens clonais mutantes de RhoA e Rac1 expressando exogenamente RhoA constitutivamente ativa (HeLa-RhoA V14), RhoA dominante negativa (HeLa-RhoA N19), Rac1 constitutivamente ativa (HeLa-Rac1 V12) e Rac1 dominante negativa (HeLa-Rac N17). Após estas linhagens celulares serem expostas a diferentes doses de radiação gama, observamos que ambas GTPases, RhoA e Rac1, são ativadas em resposta aos efeitos da radiação. Além disso, a modulação da atividade destas enzimas, através das mutações, levou a uma alteração das respostas celulares frente aos danos no DNA, como uma redução da capacidade de reparar quebras simples e duplas nas fitas do DNA. Por outro lado, a deficiência de RhoA ou Rac1 GTPase levou a uma redução da ativação de Chk1 e Chk2 ou da fosforilação da histona H2AX, respectivamente, prejudicando os mecanismos de detecção de danos no DNA e levando as células a permanecerem mais tempo nos pontos de checagem G1/S e/ou G2/M do ciclo celular. Esses fatores contribuíram de modo expressivo para a redução da proliferação e sobrevivência celular levando as células à morte. Por fim, ensaios celulares de reparo de danos de um DNA exógeno através de mecanismos de Recombinação Homóloga (HR) e Recombinação Não-Homóloga de extremidades (NHEJ), demonstraram que a inibição da atividade de RhoA reduz significativamente a eficiência de ambas vias de reparo. Desta maneira, este trabalho demonstra e reforça a existência de mais um viés de atuação das pequenas GTPases RhoA e Rac1, agora em células HeLa, nas respostas celulares aos danos induzidos por exposição a radiação gama, modulando a sobrevivência, proliferação e indiretamente modulando resposta ao reparo do DNA através da via de Recombinação Homóloga e Não-Homóloga / The mechanism by which a cell responds to DNA damage is extremely important. This occurs by a quick activation of the DNA damage repair machinery, which consists of an intricate protein signaling network culminating in DNA repair. But if the damages are irreparable occurs there is activation of cell death mechanisms. RhoA and Rac1 belong to family of small Rho GTPases, signaling proteins that act as molecular switches cycling between the active state (GTP-bound) and inactive state (GDP-bound). Members of this family are implicated in the control of diverse cellular process such as cytoskeletal remodeling, migration, adhesion, endocytosis, cell cycle progression, and oncogenesis. However, despite Rho proteins are involved in a broad spectrum of biological activities, there is just a few information about their roles in the maintenance of genomic integrity, that is, when the cells are subjected to some kinf of genotoxic agent. To investigate the involvement of the GTPases RhoA and Rac1 in cellular responses to gamma radiation, we generated from human cervix carcinoma cells - HeLa, clonal sublines of RhoA and Rac1 mutants, exogenous and stably expressing the constitutively active RhoA (HeLa-RhoA V14), the dominant negative RhoA (HeLa-RhoA N19), the constitutively active Rac1 (HeLa-Rac1 V12) and the dominant negative Rac1 (HeLa-Rac1 N17). After all these cell lines have been exposed to different doses of gamma radiation, we found that both GTPases, RhoA and Rac1, are activated in response to the radiation effects. Furthermore, the modulation of two enzymes activity, by using the mutant clones, led to a change in cellular responses to the DNA damage, as the reduction in the capacity of repairing DNA single and double strand breaksr. On the other hand, the deficiency of RhoA or Rac1 GTPase led to a reduction of Chk1 and Chk2 activation, or on the phosphorylation of histone H2AX, respectively, hindering the mechanisms of DNA damage detection and arresting cells in the G1/S and/or G2/M checkpoints of cell cycle. These factors significantly contributed to the reduction of cell proliferation and survival, leading cells to death. Finally, cellular assays of DNA damage repair of exogenous DNA by Homologous Recombination (HR) and Non-Homologous End Joining (NHEJ), demonstrated that RhoA inhibition significantly reduced the repair efficiency of both pathways. Thus, this work demonstrates and reinforces the existence of other biological functions of small GTPases RhoA and Rac1 in HeLa cells, by regulating cellular responses to DNA damage induced by exposure to gamma radiation, modulating the survival, proliferation and indirectly modulating the response to DNA damage repair pathway through the Homologous Recombination and Non-Homologous Recombination Cell signaling DNA damage response and repair Gamma radiation Genomic integrity and stability Integridade e estabilidade genômica Pequenas Rho GTPases Rac1 Rac1 Radiação gama Resposta a danos e reparo no DNA RhoA RhoA Sinalização celular Small Rho GTPase
249	Die Invasion von Epithelzellen durch E. coli Shigella Adam, Thomas 24 June 2004 (has links) Shigellen sind enteroinvasive E. coli-Klone, die beim Menschen das Krankheitsbild der bakteriellen Ruhr verursachen. Wichtige Virulenzeigenschaften dieser Bakterien werden von dem 220 kb großen Plasmid pINV kodiert. Die für das Krankheitsbild typischen blutig-eitrigen Durchfälle sind Folge der retrograden Zerstörung der Kolon-Mukosa ausgehend von der initialen Infektion im Bereich des Recto-Sigmoids. Die Infektion der Darmmukosa erfolgt über M-Zellen und assoziierte Makrophagen, nach deren apoptotischem Untergang das Bakterium Zugang zum basolateralen Pol der Enterozyten erhält; eine direkte Infektion der Enterozyten vom Darmlumen über deren apikalen Pol wird nicht beobachtet. Das eigentliche Ziel der invasiven Shigellen ist das Zytoplasma des Enterozyten, da nur dort eine relevante Replikation der Bakterien stattfindet. Dabei wird die Ausbreitung der Bakterien durch ihre Fähigkeit begünstigt, von einer primär infizierten Epithelzelle ausgehend benachbarte Epithelzellen über Plasmamembran-Ausstülpungen zu infizieren, ohne dabei den geschützten Raum des epithelialen Zytoplasmas zu verlassen. Die Aufklärung des epithelialen Invasionsmechanismus auf molekularer Ebene ist deshalb von essenzieller Bedeutung für das Verständnis sowohl der Pathogenese der Erkrankung als auch der Ökologie des Erregers. Die Infektion humaner Epithelzellen durch Shigellen erfolgt durch bakterielle Induktion von Membranausstülpungen, die über dem Bakterium fusionieren und morphologisch der Makropinozytose ähneln. Die Ausbildung der zellulären Protrusionen geht mit bedeutenden Umbauvorgängen des Zytoskeletts einher. Wir konnten zunächst in einer mikromorphologischen Analyse die einzelnen Etappen des Zytoskelett-Umbaus sowie die Mikroarchitektur der Protrusionen beschreiben. Anschließend gelang es, mit T-Plastin, Rho und einem Myosin IX Struktur- und Regulations-Moleküle zu identifizieren, die für die bakterielle Invasion funktionell bedeutend sind. Dabei fielen unterschiedliche bakteriell induzierte Rekrutierungsmuster verschiedener Rho-Isoformen und verschiedener Proteine der Rho-Familie auf. Insbesondere wurden RhoA und RhoC in unterschiedliche Bereiche des Invasionskomplexes rekrutiert. Mit umfangreichen Mutationsanalysen dieser Rho-Isoformen gelang es schließlich erstmals, ein humanes Proteinmotiv mit Techniken der `zellulären Mikrobiologie´ zu charakterisieren. Das mit Hilfe unseres Shigellen-Infektionsmodells an Epithelzellen beschriebene Rekrutierungsmotiv von Rho dürfte von fundamentaler Bedeutung sein für die räumliche Aktivitätsregulation dieser Proteinfamilie in normalen und in stimulierten Zellen. / Shigella comprise enteroinvasive clones of E. coli and are the cause of bacillary dysentery in humans. Important virulence traits of these bacteria are encoded by the 220 kb pINV plasmid. The bloody-purulent diarrhea typically seen in this disease results from retrograde destruction of colonic mucosa after inital infection of the recto-sigmoid. Infection of intestinal mucosa is via M-cells and associated macrophages. After apoptotic degradation of macrophages the microorganism gains access to the basolateral pole of enterocytes. Direct infection of enterocytes from the intestinal lumen via the apical pole is not observed. Invasive shigella target the cytoplasm of enterocytes since relevant microbial replication only takes place in this compartment. Microbial spread within the epithelial cell layer is via protrusions of the cytoplasmic membrane that reach from cell to cell thus enabling intercellular transitions without leaving the safe cytoplasmic compartment of epithelial cells. Insight into the molecular mechanisms of epithelial cell invasion is therefore essential for the comprehension of the pathogenesis of the disease as well as the ecology of the microorganism. Infection of human epithelial cells by Shigella results from bacteria-induced formation of membraneous protrusions that finally fuse above the bacterium and morphologically resemble macropinocytosis. The formation of cellular protrusions is associated with important rearrangements of the cytoskeleton. In a micromorphological study we first described the different steps of cytoskeletal reorganization and the microarchitecture of the protrusions. We then could identify structure and regulatory molecules that are functionally involved in bacterial entry: T-plastin, Rho and a myosin IX. These studies also showed different bacteria-induced recruitment patterns of Rho isoforms and of various members of the Rho protein family. In particular, RhoA and RhoC were recruited into different regions of the invasion structure. Using exhaustive mutation analysis of these Rho isoforms, we for the first time characterized a human protein motif using methods of `cellular microbiology´. The recruitment motif described using our model of epithelial cell invasion by Shigella should be significant for the spatial regulation of activity of this protein family in normal and in stimulated cells. Rho Zytoskelett E. coli Shigellen Epithelzellen Invasion Kompartimente GTPasen Shigella rho cytoskeleton E. coli epithelial cells invasion compartments GTPases 610 Medizin 33 Medizin XD 4404 XD 4453 YD 3204 YD 3214 ddc:610
250	Role of stroma and Wound Healing in carcinoma response to ionizing radiation / Rôle du stroma et la cicatrisation en réponse de carcinome à des rayonnements ionisants Arshad, Adnan 03 July 2014 (has links) Les phénomènes cicatriciels et de carcinogenèse partagent des points communs et peuvent être définis comme des processus complexes et adaptatif régulés par les interactions entre l'hôte et le microenvironnement tissulaire. Après la chirurgie, la radiothérapie est la seconde modalité la plus efficace dans le traitement du cancer et une approche thérapeutique multimodale impliquant chirurgie, radiothérapie et chimiothérapie est aujourd’hui classiquement utilisée. Des résultats récents suggèrent que, en plus des effets létaux sur les cellules tumorales, la radiothérapie modifie le microenvironnement tissulaire. Ces modifications affectent le phénotype cellulaire, le métabolisme des tissus, et les événements de signalisation entre les cellules.Les interactions complexes entre les cellules stromales et les cellules cancéreuses suscitent beaucoup d’intérêt et dans la première partie de ma thèse, j’ai exploré les interactions entre stroma et cellules de carcinome en réponse à la radiothérapie par modulation génétique du stroma après irradiation. J’ai constaté que les fibroblastes, indépendamment de leur statut RhoB, ne modulaient pas la radiosensibilité intrinsèque des TC- 1, mais produisaient des facteurs diffusibles capables de modifier le devenir des cellules tumorales. Ensuite, j’ai constaté que fibroblastes sauvages et RhoB déficients stimulaient la migration des TC-1 par des mécanismes distincts, impliquant respectivement TGF- β1 et MMP. J’ai également constaté que la co-irradiation, des fibroblastes et des TC- 1, abrogait le phénotype pro-migratoire des TC-1 par répression de la sécrétion du TGF- β et des MMP. Alors que le protocole de co-irradiation utilisé mime la situation clinique, mes résultats sont en désaccord avec les publications récentes et suggèrent que le stroma irradié ne renforce pas la migration des cellules tumorales mais au contraire pourrait être manipulé pour promouvoir une réponse immunitaire anti-tumorale.Deuxièmement, mes expériences in vivo, semblent confirmer les données obtenues in vitro et montrent que l’irradiation préalable du lit tumoral ne stimule ni croissance de la tumeur et ni sa dissemination. Nos résultats semblent montrer que l’irradiation du stroma ne favorise pas la migration des cellules de carcinome et ceci indépendamment de leur génotype. La Troisième Partie De Mon Projet, a été consacrée à l’étude des cellules tumorale circulantes (CTC) après la radiothérapie. En accord avec les résultats rapportés après la chirurgie, le nombre de CTC augmente dans la circulation sanguine après radiothérapie probablement à cause des lésions vasculaires radio-induites ou/et par induction d’EMT dans les cellules tumorales. Néanmoins ces CTC semblent être piégées dans la cavité cardiaque. La signification de la présence de ces CTC pour le développement métastatique n’est pas élucidée mais on peut suspecter un effet promoteur de métastase. Ainsi le microenvironnement pourrait avoir des effets antagonistes promoteurs ou inhibiteurs de malignité. / Wound healing and carcinogenesis are defined as complex, adaptive processes which are controlled by intricate communications between the host and the tissue microenvironment. A number of phenotypic similarities are shared by wounds and cancers in cellular signaling and gene expression. Radiotherapy is the second most effective modality of cancer treatment after surgery and can be used, either alone or in combination with chemotherapy. Recent findings suggest that radiotherapy apart from tumor cell death also rapidly and persistently modifies the tissue microenvironment. These modifications affect cell phenotype, tissue metabolism, bidirectional exchanges and signaling events between cells. The complex interactions between stromal cells and cancer cells are of immense interest and in The First Part of My Thesis, I tried to explore the crosstalk between stromal and carcinoma cells in response to radiotherapy by genetic modulation of the stroma and irradiation. We found that fibroblasts, irrespective of their RhoB status, do not modulate intrinsic radiosensitivity of TC-1 but produce diffusible factors able to modify tumor cell fate. Then we found that Wt and RhoB deficient fibroblasts stimulated TC-1 migration through distinct mechanisms respectively, TGF-β1 and MMP-mediated. We also found that co-irradiation of fibroblasts and TC-1 abrogated the pro-migratory phenotype by repression of TGF-β and MMP secretion. This result is highly relevant to the clinical situation and suggests that conversely to, the current view; irradiated stroma would not enhance carcinoma migration and could be manipulated to promote anti-tumor immune response. Secondly, our in vivo experiments, tends to confirm the in vitro data showing that irradiated tumor bed does not stimulate tumor growth and escape. Our results also challenges the view that irradiated stroma would promote migration of carcinoma cells as we show that independently from their genotype co-irradiation of fibroblasts and carcinoma cells repressed carcinoma cell migration and confirmations studies are currently performed in vivo. The Third Part of My Project, was dedicated to investigate the effect on CTC release after radiotherapy. Consistently with the results reported after surgery , the number of CTC increases in the blood stream after radiotherapy probably due to radiation-induced vascular injury induced or/and by EMT induction in tumor cells but these cells seemed to be entrapped into the cardiac cavity. The significance of these CTC to metastatic development is still under investigation but there is evidence for a metastasis-promoting effect of RT from animal studies.Thus the microenvironment can exert antagonist stimulatory or inhibitory effects on malignant cells. Cicatrisation Cancer du poumon non à petites cellules Rho MMP Microenvironnement Cellules tumorales circulantes Radiothérapie TGF- β 1 Wound healing Non Small Cell Lung Carcinoma Rho MMP Microenvironment Circulating Tumor Cells Radiotherapy TGF-β 1

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