Global ETD Search

81	Modulation de l'expression de Sirt-1 induite par l'endothéline-1 dans les cellules musculaires lisses vasculaires Mir, Ahmed 08 1900 (has links) Au cours des maladies cardiovasculaires (MCV), il peut se produire divers problèmes de santé, telle que l’insuffisance cardiaque ou encore l’HTA. Ces phénomènes se caractérisent, entre autres, par une augmentation de synthèse d’endotheline-1 (ET-1), un neuropeptide synthétisé par les cellules endothéliales ayant un effet vasoconstricteur sur les cellules musculaires lisses vasculaires (CMLV). Ainsi, la surexpression de ce vasopeptide, mène à terme, au maintien de l’HTA aggravée des sujets, précédée ou concomitante à l’athérosclérose ou à la resténose, cliniquement illustrées par une prolifération et une migration anormale des CMLV de la media vers l’intima des vaisseaux sanguins. Parallèlement, il a été observé que la protéine sirtuine-1 (Sirt-1), membre de la famille des protéines histones déacétylases (HDAC), présente des propriétés anti-athérosclérotiques par sa capacité d’atténuer la prolifération et la migration des CMLV. Des travaux récents ont aussi montré qu’au cours de l’HTA la protéine Sirt-1 est faiblement exprimée dans les CMLV. Son implication dans le développement des pathologies vasculaires semble apparente, mais des études demeurent nécessaires pour décrire son rôle exact dans la pathogenèse des MCV. Dans cette optique, l’objectif de cette étude a été d’observer la variation d’expression de Sirt-1 dans les CMLV, isolées de l’aorte ascendante de rat, en réponse à l’ET-1. On a remarqué qu’une heure de stimulation des CMLV avec l’ET-1 induit une diminution de l’expression de Sirt-1 via l’activation des récepteurs ETA. Ces résultats suggèrent que la capacité d’ET-1 à atténuer l’expression de Sirt-1 serait un éventuel mécanisme d’action avec des effets favorisant les MCV. / Cardiovascular diseases (CVD) are associated with several vascular dysfunctions such as heart failure and hypertension. These phenomena cause increased synthesis of endothelin-1 (ET-1), a neuropeptide, synthesized by endothelial cells which has vasoconstrictor action on vascular smooth muscle cells (VSMC). Overexpression of this vasopeptide leads eventually to hypertension (HTA). This usually happen after atherosclerosis or restenosis, leading to proliferation and migration of VSMC from media to intima. It was shown that during atherosclerosis, the protein sirtuin-1 (Sirt-1), a member of protein histone deacetylases (HDAC), has an anti-atherosclerotic effect due to its ability to diminish proliferation and migration of VSMC. It has also been observed that during hypertension, Sirt-1 was poorly expressed in VSMC. Its role in vascular pathophysiology remains sparsely studied, therefore it’s essential to explore it. In the present study we investigated the expression of Sirt-1 in VSMC isolated from the ascending aorta of rats, in response to ET-1 stimulation. We observed that Sirt-1 expression decreases after 1 hour of stimulation by ET-1 via ETA receptors. In summary, these results suggest that the ability of ET-1 to attenuate Sirt-1 expression in VSMC, may be a potential mechanism for promoting CVD. Maladies cardiovasculaires Endothéline-1 Cellules vasculaires des muscles lisses Hypertension artérielle Histone déacétylase Sirtuine-1 Cardiovascular diseases Endothelin-1 Vascular smooth muscle cell Hypertension histone deacetylase Sirtuin-1
82	Participação do receptor AT2 da angiotensina II no relaxamento vascular promovido pelo hormônio tiroideano / Thyroid hormone induces vascular relaxation via angiotensin II type 2 receptor (AT2) Sepulveda, Maria Alicia Carrillo 01 February 2010 (has links) A vasodilatação promovida pela triiodotironina (T3) ocorre por sua ação direta sobre o relaxamento das células musculares lisas vasculares (CMLV), porém os mecanismos envolvidos são desconhecidos. Neste estudo mostramos que o T3 rapidamente relaxa as CMLV através da geração de óxido nítrico (NO), via óxido nítrico sintase neuronal e induzível (nNOS e iNOS), efeitos mediados pela sinalização PI3K/Akt. Ensaios funcionais em aortas sem endotélio, incubados com T3, mostraram menor resposta contrátil a Fenilefrina (FE), efeito este revertido pelo L-NAME, inibidor da NOS. Aortas de ratos hipertiroideos apresentaram aumento do receptor de Angiotensina II (AngII) do tipo 2 (AT2), acompanhado de diminuição de proteínas contráteis. In vitro o T3 diminui estas proteínas contráteis via AT2. Aortas sem endotélio dos ratos hipertiroideos apresentaram menor reatividade a AngII e maior relaxamento ao nitroprussiato de sódio (NPS), efeitos estes mediados via AT2. Por fim, observamos que o T3 é capaz de induzir produção de NO nas CMLV via PI3K/Akt, a qual é ativada pelo AT2 / 3,3\',5-triiodo-l-thyronine (T3) has been shown to induce vasodilation by its direct effect on vascular smooth muscle cells (VSMC). However, the mechanism by which T3 causes VSMC relaxation is still unknown. Here, we have shown that T3 causes rapid relaxation of VSMC via increased NO production from inducible and neuronal nitric oxide synthase (NOS). We further showed that these effects were mediated by PI3K/Akt signaling pathway. Vascular reactivity studies showed that endothelium-denuded aortas treated with T3 had a decreased response to phenylephrine which was reserved by L-NAME, NOS inhibitors. Aortas from hyperthyroid rats showed an upregulation of AT2 accompanied by decreased of contractile proteins. In vitro we observed that T3 decreases contractile proteins via AT2. Furthermore, endothelium-denuded aortas from hyperthyroid rats showed a decreased response to angiotensinII and augmented relaxation to sodium nitroprusside (SNP) via AT2 participation. Our data also suggests that PI3K/Akt signaling pathway is involved in T3-induced NO production in VSMC via AT2. Angiotensin II type 2 receptor Célula muscular lisa vascular Hormônios tiroideanos Nitric oxide Óxido Nítrico Receptor AT2 da Angiotensina II Renin Angiotensin system Sistema renina argiotensina Thyroid hormone Vascular smooth muscle cell Vasodilatação Vasodilation
83	Estudo da ativação de inflamassoma por toxinas isoladas de venenos botrópicos e modulação da resposta imune / Evaluation of the inflammasome activation by toxins isolated from bothropic venoms and modulation of the immune response Silva, Priscila de Andrade Ranéia e 16 July 2018 (has links) A lesão tecidual é um dos efeitos locais descritos nos envenenamentos botrópicos. Toxinas isoladas, como: a jararagina (JAR) e bothropstoxina-I (BthTX-I), obtidas dos venenos de B. jararaca e B. jararacussu, respectivamente, induzem intensa resposta inflamatória e lesão tecidual, porém apresentam diferentes mecanismos de ação. Como descrito, a resolução da lesão tecidual envolve a interação entre mecanismos de reparo do tecido e o sistema imune. Neste contexto, a resposta inflamatória é iniciada por meio da detecção de sinais de dano tecidual agudo devido a distúrbios da homeostasia resultantes ou não de agentes microbianos (DAMPs) e/ou por reconhecimento de padrões moleculares associados a patógenos (PAMPs). Uma vez induzida, a resposta inflamatória está envolvida tanto no processo de lesão visando a eliminação do agente indutor, assim como no reparo tecidual. Diversos receptores estão envolvidos no reconhecimento de PAMPs e DAMPs como os transmembrânicos representados pelos do tipo Toll, e os citosólicos que compreendem complexos proteicos que formam os inflamassomas. Estes complexos multiproteicos citosólicos podem participar da indução da resposta imune inata por ativação de caspase-1 com consequente liberação de IL-1&#946, que pode resultar em morte celular. Considerando o exposto, o objetivo deste trabalho foi estudar a participação de inflamassoma na resposta inflamatória no tecido muscular de injeção das toxinas, a capacidade da BthTX-I e JAR de induzir a ativação de inflamassoma em macrófagos e os mecanismos moleculares envolvidos nesse processo. O estudo da migração de neutrófilos e macrófagos para o músculo gastrocnémio de animais C57BL/6 ou deficientes em caspase 1/11 (Caspase 1/11-/-) ou NLRP3 (NLRP3-/-) injetados com JAR e BthTX-I permitiu verificar que o inflamassoma NLRP3 participa da migração destas células inflamatórias para local de injeção das toxinas. A análise da produção de IL-1&#946 nas culturas de macrófagos peritoneais incubados com JAR e BthTX-I (6 e 24h) mostrou que somente a BthTX-I foi capaz de induzir a secreção desta citocina por um mecanismo dependente de caspase 1/11, ASC e NLRP3 e independente de IPAF. A incubação de macrófagos humanos com as toxinas permitiu verificar que ambas as toxinas induziram a secreção de IL-1&#946 dependente de caspase 1, porém esta produção foi significativamente maior em resposta à BthTX-I. Nos macrófagos peritoneais de camundongos observamos a relação entre a secreção de IL-1&#946 e morte celular em ensaio de incorporação do brometo de etídio nas culturas incubadas com BthTX-I por 24h e não com a JAR. Visto que ambas as toxinas injetadas via intramuscular induzem resposta inflamatória intensa, foi analisado o efeito delas sobre a viabilidade e secreção de IL-6 e MCP-1 em miotubos C2C12. Os resultados mostraram que somente a BthTX-I induz efeito miotóxico sobre esta linhagem celular. Além disso, pudemos verificar que BthTX-I induz altos níveis de IL-6 e MCP-1 quando comparados aos obtidos com a JAR. Visto que a BthTX-I induziu alta secreção de MCP-1 pelos miotubos C2C12, em experimento in vivo realizado em camundongos C57BL/6 ou deficientes em CCR2 (CCR2-/-) pode ser observada a dependência da interação entre MCP-1 e o CCR2 para a migração dos macrófagos em resposta a injeção de BthTX-I. Em culturas de miotubos incubados com as toxinas pôde ser observada alta liberação de ATP induzida pela BthTX-I in vitro. Em outros experimentos foi estudada a capacidade do sobrenadante de miotubos incubados com BthTX-I de induzir a secreção de IL-1&#946 pelos macrófagos in vitro. Os resultados mostraram a produção de IL-1&#946 nessas culturas de macrófagos, assim como a produção desta citocina em macrófagos incubados com BthTX-I juntamente com ATP. A hidrólise do ATP no sobrenadante da cultura de C2C12 estimulada com BthTX-I aboliu a secreção de IL-1 pelos macrófagos in vitro. Além disso, foi observada a inibição da produção de IL-1&#946 nas culturas de macrófagos primados com LPS e incubados com a BthTX-I em condições de altas concentrações de KCl sugerindo papel relevante do efluxo de K+ na produção de IL-1&#946 induzida pela BthTX-I. Em conjunto, os resultados acrescentam novas informações sobre o potencial inflamatório da JAR e BthTX-I, quanto à ação destas toxinas em macrófagos, ativação de inflamassoma e células musculares. / Tissue damage is one of the local effects described in bothropic envenomations. Isolated toxins, such as jararhagin (JAR) and bothropstoxin-I (BthTX-I), obtained from B. jararaca and B. jararacussu venoms, respectively, induce intense inflammatory response and tissue injury, however mediated by distinct mechanisms. As described, resolution of tissue injury involves the interaction between mechanisms of tissue repair and the immune system. In this context, the inflammatory response is initiated by detecting of signs of acute tissue damage due to disorders of homeostasis resulting from distinct agents (DAMPs) and / or recognition of pathogens associated molecular patterns (PAMPs). Once induced, the inflammatory response is involved both in the injury process for the elimination of the pathogenic agent, as well as in the tissue repair. Several receptors are involved in the recognition of PAMPs and DAMPs as the transmembrane receptors such as the Toll-like, and the cytosolic ones that comprise protein complexes - inflammasomes. These cytosolic multiprotein complexes may participate in the induction of the innate immune response by activation of caspase-1 with consequent release of IL-1&#946, which may result in cell death. Thus, we aimed to study the role of inflammasome on the inflammatory response in muscular tissue of JAR and BthTX-I injection, the ability of BthTX-I and JAR to induce the activation of inflammasome in macrophages and the molecular mechanisms involved in this process. The analyses of the neutrophils and macrophages migration in gastrocnemius muscle of C57BL/6 or Caspase 1/11 (Caspase 1/11-/-) or NLRP3 (NLRP3-/-) deficient mice injected with JAR e BthTX-I allow us to verify that NLRP3 inflammasome participates in these cells migration for the local of the toxins injection. The detection of IL-1&#946 on supernatants from macrophage cultures incubated with JAR or BthTX-I (6 e 24h) showed that only BthTX-I was able to induce this cytokine secretion by a mechanism dependent of caspase 1/11, ASC and NLRP3 and independent of IPAF. The incubation of human macrophages with the toxins demonstrated that both toxins induced IL-1&#946 secretion, however this production was significantly higher in response to BthTX-I. On murine macrophage cultures it was verified the correlation between the IL-1&#946 secretion and the cell death in the incorporation of ethidium bromide assay of cultures incubated with BthTX-I during 24h and not with JAR. Since that both toxins injected in the muscle induced intense inflammation, it was analyzed the effect of both toxins on the viability and the secretions of IL-6 and MCP-1 by C2C12 myotubes. The results showed that only BthTX-I induces a myotoxic effect on this cell line. Furthermore, it was verified that BthTX-I induces high secretion of IL-6 and MCP-1 when compared with those induced by JAR. Considering that BthTX-I induces high levels of MCP-1, in in vivo experiment using C57BL/6 and CCR2 deficient (CCR2-/-) mice it was observed that the interaction of MCP-1 and CCR2 is essential for the macrophage recruitment for the toxin injection. High release of ATP was detected in C2C12 myotube cultures incubated with BthTX-I but not with JAR. In another experiments it was studied the ability of the supernatants of C2C12 myotubes incubated with BthTX-I to induce the IL-1&#946 secretion by peritoneal macrophages in vitro. The results showed the IL-1&#946 secretion in the macrophage cultures as well as the cytokne secretion in macrophages incubated with BthTX-I and ATP independent of the priming with LPS. The hydrolysis of the ATP on the supernatants of C2C12 incubated with the BthTX-I abolished the IL-1&#946 production by macrophages in vitro. In addition, it was not observed IL-1&#946 production by macrophages primed with LPS and incubated with BthTX-I in the presence of high concentration of KCl suggesting a relevant role of K&#43 efflux for this cytokine secretion in response to BthTX-I. Taken together, the results show new findings about the inflammatory effect of JAR and BthTX-I, concerning about the action of these toxins on macrophages, inflammasome activation and muscle cell. Bothrops envenomation; jararhagin bothropstoxin-I bothropstoxina-I; IL-1; MCP-1 célula muscular envenenamento botrópico IL-1&#946 inflamassoma inflammasome inflammatory reaction jararagina MCP-1 muscle cell resposta inflamatória
84	Zelltyp-spezifische Interaktionen von Toxoplasma gondii und murinen Skelettmuskelzellen in vitro / Cell-type specific interactions between Toxoplasma gondii and murine Skeletal Muscle Cells in vitro Swierzy, Izabela 16 January 2014 (has links) Toxoplasma gondii ist einer der häufigsten intrazellulären Protozoen weltweit und ein wichtiger Krankheitserreger des Menschen. Er kommt in drei Lebensstadien vor: Sporozoiten, Tachyzoiten und Bradyzoiten. Während Sporozoiten nach sexueller Vermehrung im Endwirt (Katzenartige) und Freisetzung in die Umwelt gebildet werden, entstehen Tachyzoiten und Bradyzoiten asexuell durch Endodyogenie in Zwischenwirten wie Vögeln, Säugetieren und dem Menschen. Tachyzoiten sind schnell replizierende Parasiten, die nahezu jede nukleäre Zelle des Körpers infizieren können. Dagegen bilden die nach Differenzierung von Tachyzoiten entstehenden, weitgehend ruhenden Bradyzoiten Gewebszysten und persistieren bevorzugt in neuronalen oder muskulären Geweben der Zwischenwirte. Der Verzehr von Bradyzoiten-haltigem, rohem oder ungegartem Fleisch von T. gondii-infizierten Nutztieren ist einer der Hauptübertragungswege des Parasiten auf den Menschen und kann zum Ausbruch der Toxoplasmose-Krankheit führen. Die Toxoplasmose ist vor allem bei immunsupprimierten Patienten und erstmalig infizierten Schwangeren nach Übertragung auf den Fötus klinisch gefährlich und kann sogar tödlich enden. Da Fleischverzehr infizierter Nutztiere einen der Hauptinfektionswege darstellt, weisen Skelettmuskelzellen (SkMZ) eine enorme Bedeutung für die Übertragung von Toxoplasma auf den Menschen auf. Das Ziel dieser Arbeit war es daher, zelltyp-spezifische Faktoren zu identifizieren und zu charakterisieren, die die Toxoplasma-Entwicklung und Bradyzoitenbildung in SkMZ regulieren. Die Untersuchungen wurden mithilfe der murinen C2C12-SkMZ-Linie in vitro durchgeführt, die von proliferierenden Myoblasten in Pferdeserum-haltigem Medium oder aufgrund erhöhter Zelldichte effektiv zu polykernigen Myotuben differenzierten. Die Effektivität der terminalen Differenzierung von C2C12-SkMZ wurde durch den Nachweis muskelspezifischer Marker wie MyoD, Myogenin und Myosin Heavy Chain (MyHC) mittels Reverse Transkriptase-qPCR (RT qPCR), Immunfluoreszenz sowie Nachweis des Zellzyklusarrests mittels BrdU-Markierung validiert. Die Infektion von terminal differenzierten C2C12-Myotuben, proliferierenden C2C12-Myoblasten und murinen NIH3T3-Kontrollfibroblasten mit T. gondii zeigte, dass der Parasit in Myotuben deutlich mehr bradyzoitenspezifische ENO1- bzw. BAG1-Transkripte exprimierte als in Myoblasten und Fibroblasten. Außerdem war die Gewebszystenbildung bei gleichzeitig reduzierter Parasitenreplikation in terminal differenzierten C2C12-Myotuben deutlich erhöht. Demgegenüber förderten proliferierende C2C12-Myoblasten und NIH3T3-Fibroblasten die Replikation von Toxoplasma bei gleichzeitig geringer Bradyzoitenbildung. Diese Daten weisen erstmalig auf die Bedeutung des Zelltyps und dessen Differenzierung für die Parasitenentwicklung und die Stadienkonversion in SkMZ hin. Für genauere Untersuchungen von Zelltyp-spezifischen Interaktionen mit T. gondii wurden die Transkriptome von terminal differenzierten C2C12-Myotuben und Neuronen sowie von proliferierenden NIH3T3-Fibroblasten und Astrozyten vor und nach Infektion mit T. gondii für 24 Stunden mittels High-Throughput RNA-Sequenzierung ermittelt. Die Analysen zeigten einen deutlich größeren Einfluss der zelltyp-spezifische Genexpression auf das Gesamttranskiptom der vier Zelltypen als die Expressionsveränderungen aufgrund der Toxoplasma-Infektion. Allerdings wurden auch Gengruppen identifiziert, die in den terminal differenzierten SkMZ und Neuronen im Vergleich zu Fibroblasten und Astrozyten differentiell exprimiert waren. Des Weiteren bewirkte die T. gondii-Infektion eine signifikante Expressionssteigerung u. a. von Zellzyklus-regulierenden Transkripten spezifisch in terminal differenzierten SkMZ und Neuronen, was auf ihre mögliche Beteiligung an der Toxoplasma-Stadienkonversion hindeutete. Daher wurden anschließend die Expressionsprofile ausgesuchter Zellzyklusregulatoren im Laufe der terminalen C2C12-SkMZ-Differenzierung und der Toxoplasma-Infektion mittels RT qPCR- und Western Blot-Analysen untersucht. Während die Transkription der negativen Zellzyklus-Modulatoren Tspyl2 und dem ‚down stream‘-liegenden Targetgen p21 im Laufe der terminalen Differenzierung von C2C12-Myoblasten zunahm, sank begleitend die Transkription der Uhrf1- und Ccnb1- (CyclinB1) Aktivatoren. Nach Infektion wurde spezifisch in Myotuben, nicht aber in Myoblasten oder Fibroblasten, eine weitere Steigerung der Tspyl2-Transkripte durch RT-qPCR-Analysen nachgewiesen. Gleichzeitig reagierten C2C12-Myotuben auch mit Hochregulation der Uhrf1- und Ccnb1-Transkription auf Toxoplasma-Infektion. Allerdings wurde durch BrdU-Markierung nachgewiesen, dass die spezifische Modulation von Zellzyklusregulatoren nach Infektion von Myotuben den Zellzyklusarrest nicht aufhob und C2C12-Myotuben nicht zur Zellteilung anregte. Da Überexpression von CDA-1 (humanes Tspyl2-Ortholog) in humanen Fibroblasten die Stadienkonversion von T. gondii fördert, wurde die Funktion des Tspyl2-Zellzyklusregulators in SkMZ analysiert. ‚Knock-down‘ von Tspyl2 mittels shRNA unterdrückte effektiv die terminale C2C12-Myoblastendifferenzierung. Bemerkenswerterweise führte dies nach T. gondii-Infektion zweier ausgesuchter Tspyl2 shRNA-C2C12-Transfektanten zu einer verstärkten Toxoplasma-Replikation im Vergleich zu Kontrolltransfektanten und WT Myotuben. Gleichzeitig war in Tspyl2-‚Knock-down‘-Mutanten die Parasitendifferenzierung zum Bradyzoitenstadium sowie die Gewebezystenbildung vermindert. Diese Ergebnisse zeigen erstmalig, dass in SkMZ die spontane Differenzierung von T. gondii zum Bradyzoiten wesentlich von dem Zellzyklusregulator Tspyl2 und der terminalen Myotubendifferenzierung abhängt. Differenzierung von SkMZ führte u.a. auch zu veränderten Expressionsprofilen von Zytokinen und Chemokinen in C2C12-Myotuben, -Myoblasten und Kontrollfibroblasten. So wurden mehrere pro-inflammatorischen Zytokine in Myotuben deutlich stärker als in Myoblasten oder Fibroblasten exprimiert. Nach Infektion von C2C12-Myotuben stiegen die Transkriptmengen von IL-23, IL 1α und IL 1β an. Diese Ergebnisse könnten neben Zellzyklusregulatoren auch auf den Einfluss von Immunfaktoren bei der Zelltyp-spezifischen Stadienkonversion in differenzierten SkMZ hindeuten In dieser Arbeit wurde zum ersten Mal gezeigt, dass der Differenzierungsstatus der SkMZ die Stadienkonversion und die Gewebszystenbildung eindeutig beeinflusst. Da die terminale SkMZ-Differenzierung von Zellzyklusregulatoren eingeleitet wird und ihre Expressionen offensichtlich unter dem Einfluss der T. gondii-Infektion stehen, könnten sie einen Einflus auf die Induktion der Stadiendifferenzierung von schnell replizierenden Tachyzoiten zu persistierenden Bradyzoiten ausüben, was am Beispiel des negativen Zellzyklusregulators Tspyl2 in dieser Arbeit nachgewiesen wurde. Des Weiteren wurde gezeigt, dass Myotuben mit der Produktion von proinflammatorischen Molekülen aktiv auf die Toxoplasma-Infektion reagieren und ihre Expression zur lokalen Immunantwort der SkMZ beitragen dürften. 570 Toxoplasma gondii Skelettmuskelzellen T.gondii-Wirtszell-Interaktionen Zellzyklus Persistenz Tspyl2 Testis-specific Y-encoded-like protein 2 Biologie (PPN619462639)
85	Participação do receptor AT2 da angiotensina II no relaxamento vascular promovido pelo hormônio tiroideano / Thyroid hormone induces vascular relaxation via angiotensin II type 2 receptor (AT2) Maria Alicia Carrillo Sepulveda 01 February 2010 (has links) A vasodilatação promovida pela triiodotironina (T3) ocorre por sua ação direta sobre o relaxamento das células musculares lisas vasculares (CMLV), porém os mecanismos envolvidos são desconhecidos. Neste estudo mostramos que o T3 rapidamente relaxa as CMLV através da geração de óxido nítrico (NO), via óxido nítrico sintase neuronal e induzível (nNOS e iNOS), efeitos mediados pela sinalização PI3K/Akt. Ensaios funcionais em aortas sem endotélio, incubados com T3, mostraram menor resposta contrátil a Fenilefrina (FE), efeito este revertido pelo L-NAME, inibidor da NOS. Aortas de ratos hipertiroideos apresentaram aumento do receptor de Angiotensina II (AngII) do tipo 2 (AT2), acompanhado de diminuição de proteínas contráteis. In vitro o T3 diminui estas proteínas contráteis via AT2. Aortas sem endotélio dos ratos hipertiroideos apresentaram menor reatividade a AngII e maior relaxamento ao nitroprussiato de sódio (NPS), efeitos estes mediados via AT2. Por fim, observamos que o T3 é capaz de induzir produção de NO nas CMLV via PI3K/Akt, a qual é ativada pelo AT2 / 3,3\',5-triiodo-l-thyronine (T3) has been shown to induce vasodilation by its direct effect on vascular smooth muscle cells (VSMC). However, the mechanism by which T3 causes VSMC relaxation is still unknown. Here, we have shown that T3 causes rapid relaxation of VSMC via increased NO production from inducible and neuronal nitric oxide synthase (NOS). We further showed that these effects were mediated by PI3K/Akt signaling pathway. Vascular reactivity studies showed that endothelium-denuded aortas treated with T3 had a decreased response to phenylephrine which was reserved by L-NAME, NOS inhibitors. Aortas from hyperthyroid rats showed an upregulation of AT2 accompanied by decreased of contractile proteins. In vitro we observed that T3 decreases contractile proteins via AT2. Furthermore, endothelium-denuded aortas from hyperthyroid rats showed a decreased response to angiotensinII and augmented relaxation to sodium nitroprusside (SNP) via AT2 participation. Our data also suggests that PI3K/Akt signaling pathway is involved in T3-induced NO production in VSMC via AT2. Célula muscular lisa vascular Hormônios tiroideanos Óxido Nítrico Receptor AT2 da Angiotensina II Sistema renina argiotensina Vasodilatação Angiotensin II type 2 receptor Nitric oxide Renin Angiotensin system Thyroid hormone Vascular smooth muscle cell Vasodilation
86	Experimental Studies on Extremely Small Scale Vibrations of Micro-Scale Mechanical and Biological Structures Venkatesh, Kadbur Prabhakar Rao January 2017 (has links) (PDF) Experimental vibration analysis of mechanical structures is a well established field.Plenty of literature exists on macro scale structures in the fields of civil, mechanical and aerospace engineering, but the study of vibrations of micro scale structures such as MEMS, liquid droplets, and biological cells is relatively new. For such structures, the amplitudes of vibration are typically in nanometeror sub-nanometer range and the frequencies are in KHz to MHz range depending upon the dimensions of the structure. In our study, we use a scanningLaser Doppler Vibrometer (LDV) to measure the vibrations of micro-scale objects such as MEMS structures, micro droplets and cells. The vibrometercan capture frequency response up to 24 MHz withpicometer displacement resolution. First, we present the study of dynamics of a 2-D micromechanical structure—a MEMSelectrothermal actuator. The structure is realized using SOI MUMPs process from MEMSCAP. The fabricated device is tested for its dynamic performance characteristics using the LDV. In our experiments, we could capture up to 50 out-of-plane modes of vibration—an unprecedented capture—with a single excitation. Subsequent FEM based numerical simulations confirmed that the captured modes were indeed what the experiments indicated, and the measured frequencies werefound to be within 5% of theoretically predicted. Next, we study the dynamics of a 3-D micro droplet and show how the substrate adhesion modulates the natural frequency of the droplet. Adhesion properties of droplets are decided by the degree of wettability that is generally measured by the contact angle between the substrate and the droplet. In this work, we were able to capture 14 modes of vibration of a mercury droplet on different substrates and measure the correspondingfrequencies experimentally. We verify these frequencies with analytical calculations and find that all the measured frequencies are within 6% of theoretically predicted values. We also show that considering any two pairs of natural frequencies, we can calculate the surface tension and the contact angle, thus providing a new method for measuring adhesion of a droplet on an unknown surface. Lastly, we present a study of vibrations of biological cells.Our first study is that of single muscle fibers taken from drosophila.Muscle fibers with different pathological conditions were held in two structural configurations—asa fixed-fixed beam and a cantilever beam—and their vibration signatures analysed.We found that there was significant reduction in natural frequency of diseased fibers. Among the diseased fibers, we could confidently classify the myopathies into nemaline and cardiac types based on the natural frequency of single fibers. We have noticed that the elastic modulus of the muscle which decides the natural frequency is dictated by the myosin expression levels. Our last example isa study of the vibration signatures of cancer cells. Here we measure the natural frequencies of normal and certain cancerous cells, and show that we can distinguish the two based on their natural frequencies. We find that the natural frequency of cancerous cells is approximately half of that of normal cells. Within the cancerous cells, we are able to distinguished epithelial cancer cells and mesenchymal cancer cells based on their natural frequency values. For Epithelial cells,we activate the signaling pathways to induce EMT and notice the reduction in the natural frequency. This mechanical assay based on vibration response corroborates results from the biochemical assays such as Western blots and PCR, thus opening a new technique of mechano-diagnostics. Electrothermal Actuator Muscle Cell Vibration Signatures Vibration Based Myography Cells - Micromechanical Structures Vibration Analysis Sessile Droplets Scanning Laser Doppler Vibrometer (LDV) Cancer Cells - Vibration Signatures Muscle Dynamics Mechanical Engineering
87	Therapeutic Targeting of BMP and TGF-β Signalling Pathways for the Resolution of Pulmonary Arterial Hypertension Sharmin, Nahid January 2018 (has links) Vascular remodelling due to excessive proliferation and apoptosis resistance of pulmonary arterial smooth muscle (PASMCs) and endothelial cells (ECs) has been attributed to the pathogenesis of pulmonary arterial hypertension (PAH). It is an incurable cardiovascular disorder, which leads to right heart failure and death, if left untreated. Heterozygous germline mutations in the bone morphogenetic protein receptor type II (BMPR2) have been linked with the majority (~75%) of the familial form of the disease (HPAH). Mutations in the BMPR2 gene impinge upon the BMP signalling which perturbs the balance between BMP and TGF-β pathways leading to the clinical course of the disease. Current therapies were discovered prior to the knowledge that PAH has substantial genetic components. Hence, this study aims to identify novel therapeutic intervention and provide novel insights into how the dysfunctional BMPRII signalling contributes to the pathogenesis of PAH. This work demonstrates that cryptolepines and FDA approved drugs (doxorubicin, taxol, digitoxin and podophyllotoxin) inhibit the excessive proliferation and induce apoptosis in BMPR2 mutant PASMCs by modulating the BMP and TGF-β pathways. Moreover, established drug PTC124 has also been tested but has failed to promote translational readthrough. I have also shown that dysregulated apoptosis of PASMCs and HPAECs is mediated through the BMPRII-ALK1-BclxL axis. Finally, the siRNA screen targeting approximately 1000 genes has identified novel proteins including PPP1CA, IGF-1R, MPP1, MCM5 and SRC each capable of modulating the BMPRII signalling. Taken together, this study for the very first time has identified novel compounds with pro-BMP and anti-TGFβ activities which may provide therapeutic intervention prior to or after the onset of PAH. / Commonwealth Scholarship Commission in the UK / The full text will be available at the end of the embargo period, 31st July 2024. Pulmonary arterial hypertension (PAH) Bone morphogenetic protein (BMP) Transforming growth factor β (TGF-β) Pulmonary arterial smooth muscle cell Endothelial cell Cryptolepine Inhibitor of differentiation Plasminogen activator inhibitor Apoptosis Proliferation Therapeutic intervention
88	Development of DNA aptamer as a HMGA inhibitor for cancer therapy and NMR-based metabonomics studies in human/mouse cell lines Watanabe, Miki 05 December 2011 (has links) No description available. Biochemistry Cellular Biology Molecular Biology HMGA phosphorothioate DNA DNA aptamer pancreatic cancer gemcitabine PCA NMR metabonomics metabolic profiling skeletal muscle cell DAG burn injury breast cancer cell line NPY Y5R CGP
89	Suppressor of cytokine signalling 3 (SOCS3) turnover and regulation of human saphenous vein smooth muscle cell signalling and function Moshapa, Florah T. January 2021 (has links) Neointimal hyperplasia (NIH) is a cardiovascular disease characterised by increased smooth muscle cell (SMC) inflammation and proliferation. Suppressor of cytokine signalling 3 (SOCS3) limits Janus kinase (JAK)/signal transducer and activator of transcription (STAT) pathways involved in vascular remodelling but is limited by its short biological half-life. Therefore, mutation of all 9 Lys residues that are potential sites of ubiquitylation to Arg should produce a mutated SOCS3 resistant to ubiquitin-mediated proteasomal degradation (“Lys-less” SOCS3). This study hypothesise that enhancing SOCS3 stability and limiting JAK/STAT signalling may provide sustained inhibition of the vascular remodelling in NIH. Lentiviral transduction of WT and Lys-less SOCS3 in human saphenous vein (HSVSMCs) was highly efficient after 48 hours (>97%) and was sustained over 2 weeks. Lys-less SOCS3 was resistant to ubiquitylation contrary to WT-transduced HSVECs, and Lys-less SOCS3 was more stable (t1/2=4h) than WT (t1/2<4h) (n=6, P<0.001) in HSVSMCs. In HSVSMCs, both Lys-less SOCS3 and WT inhibited sIL-6Rα/IL-6 mediated STAT3 activation but not extracellular signal regulated protein kinase 1/2 (ERK1/2) by 80±7% (Lys-lessSOCS3/pSTAT3) and 74±6% (WT/pSTAT3) (n=3, P<0.05) and similarly inhibited PDGF-mediated STAT3 activation but not ERK1/2 by 67±17% (Lys-less SOCS3/pSTAT3) and 72±18% (WT/pSTAT3) (n=3, P<0.05). Functionally, Lys-less SOCS3 and WT were equivalent in inhibiting sIL-6Rα/IL-6 and PDGF-induced proliferation, whilst having no effects on PDGF-induced migration in HSVSMCs. Lys-less SOCS3 can be successfully transduced into primary HSVSMCs. It is more stable than WT yet retains its functional ability to ameliorate pro-inflammatory signalling and SMC proliferation, making it an attractive option for developing treatment of NIH. / University of Botswana Neointimal hyperplasia (NIH) Cytokine signalling 3 (SOCS3) Janus kinase (JAK) JAK/STAT signalling Human saphenous vein Cell migration Cell proliferation Cardiovascular disease Smooth muscle cell
90	Modulation de l’expression du récepteur B1 des kinines par l’angiotensine II et l’endothéline-1 dans des cellules musculaires lisses vasculaires Morand-Contant, Marielle 08 1900 (has links) Le stress oxydatif est impliqué dans l’expression du récepteur B1 des kinines (RB1) dans différents modèles de diabète et d'hypertension. Puisque l'angiotensine II (Ang II) et l'endothéline-1 (ET-1) sont des peptides prooxydants impliqués dans les maladies cardiovasculaires, leur contribution dans l'augmentation de l'expression du RB1 a été étudiée dans des cellules musculaires lisses vasculaires (CMLV). Le QRT-PCR et l’immunobuvardage de type Western ont été utilisés pour mesurer l’expression du RB1 dans des CMLV dérivées de la lignée A10 et de l’aorte de rats Sprague-Dawley. Cette étude montre que l’Ang II augmente l’expression du RB1 (ARNm et protéine) en fonction de la concentration et du temps (maximum 1 μM entre 3-6 h). Cette augmentation implique le récepteur AT1, la PI3K et le NF-κB, mais non le récepteur AT2 et ERK1/2. Aussi, le récepteur ETA de l’ET-1 est impliqué dans la réponse à l’Ang II à 6-8 h et non à 1-4 h. Par contre, l’ET-1 augmente l’expression du RB1 (maximum 2-4 h) via la stimulation des récepteurs ETA et ETB. L’augmentation du RB1 causée par l’Ang II et l’ET-1 est bloquée par les antioxydants (N-acétyl-cystéine et diphénylèneiodonium). Ces résultats suggèrent que l’Ang II induit le RB1 dans les CMLV par le récepteur AT1 dans la première phase, et par la libération d’ET-1 (majoritairement par ETA) dans la phase tardive, via le stress oxydatif et l’activation de la PI3K et du NF-κB. Ces résultats précisent le mécanisme impliqué dans la surexpression du RB1 ayant des effets néfastes dans le diabète et l'hypertension. / Oxidative stress is involved in the overexpression of kinin B1 receptor (B1R) in various models of diabetes and hypertension. Since angiotensin II (Ang II) and endothelin-1 (ET-1) are pro-oxidative peptides involved in cardiovascular diseases, their contribution in increasing the expression of B1R was examined in vascular smooth muscle cells (VSMC). QRT-PCR and Western blot analysis were used to measure the expression of B1R in VSMC derived from A10 cell line and the aorta of Sprague-Dawley rats. This study shows that Ang II increases the expression of B1R (mRNA and protein) in a concentration- and time-dependent manner (maximum 1 μM between 3-6 h). This increase involves AT1 receptor, PI3K and NF-κB, but not AT2 receptor and ERK1/2. Moreover, ETA receptor is involved in the effect of Ang II at 6-8 h but not at 1-4 h. However, ET-1 increases expression of B1R (maximum 2-4 h) via stimulation of ETA and ETB receptors. Ang II and ET-1-induced increase expression of B1R is blocked by antioxidants (N-acetyl-L-cysteine and diphenyleneiodonium). These results suggest that Ang II induces B1R in VSMC by AT1 receptor in the first phase and by releasing ET-1 (predominantly by ETA receptor) in the late phase, via oxidative stress and activation of PI3K and NF-κB. These results clarify the mechanism involved in the overexpression of B1R which has adverse effects in diabetes and hypertension. récepteur B1 des kinines kinin B1 receptor angiotensine II angiotensin II endothéline-1 endothelin-1 stress oxydatif oxidative stress cellule du muscle lisse vasculaire vascular smooth muscle cell ERK1/2 ERK1/2 NF-κB NF-κB PI3K PI3K

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