Global ETD Search

21	Post-Transcriptional Regulation of the Murine Inducible Nitric Oxide Synthase Gene Söderberg, Malin January 2005 (has links) <p>Large amounts of nitric oxide (NO) are produced by the inducible nitric oxide synthase (iNOS) upon inflammatory stimuli. NO is a multifaceted molecule, which may have beneficial effects as an antimicrobial agent in the immune defense, or cytotoxic effects in chronic inflammations, manifested as e.g. arthritis and asthma. Understanding the mode of regulation of the iNOS gene is a prerequisite for developing intervention strategies in various pathological conditions where detrimental effects of NO need to be prevented.</p><p>Transcriptional processes of the iNOS gene regulation are well described, while post-transcriptional events have not been studied in detail. The aim of the present thesis was to investigate post-transcriptional regulatory mechanisms involving the 3’untranslated region (UTR) of the murine iNOS mRNA.</p><p>Inflammation-dependent RNA-protein interactions with the iNOS mRNA 3’UTR were characterized by RNA gel shift analysis and UV cross-linking. <i>Trans</i>-acting factors interacting with the 3’UTR were detected in mouse liver and macrophages and identified as heterogeneous nuclear ribonucleoproteins (hnRNP) I and L. Western blot revealed that reduced hnRNPI levels are responsible for the decreased interaction of hnRNPI with iNOS 3’UTR upon induction in inflammatory conditions. This decrease was reversed by the glucocorticoid dexamethasone, concomitant with decreased iNOS mRNA levels and stability. Introduction of the iNOS 3’UTR into a luciferase reporter gene reduced its expression in macrophages. Upon deletions of the binding sites for hnRNPI and hnRNPL, the luciferase expression was recovered. In addition, inflammatory stimuli increased the luciferase activity of the construct with the full-length 3’UTR, while only weak effects of the stimuli were seen on the deletion constructs.</p><p>In conclusion, the results suggest that binding of hnRNPI and hnRNPL to the iNOS mRNA 3’UTR promotes degradation of the transcript. Induction of iNOS by inflammatory stimuli dissociates the RNA-protein complex, yielding a more stable mRNA. In addition, post-transcriptional down-regulation of the iNOS gene by the anti-inflammatory glucocorticoid dexamethasone, seems to involve hnRNPI.</p> Pharmaceutical biochemistry iNOS inducible nitric oxide synthase gene regulation post-transcriptional mRNA stability RNA-protein interactions dexamethasone murine heterogeneous nuclear ribonucleoprotein hnRNPI hnRNPL Farmaceutisk biokemi Pharmaceutical biochemistry Farmaceutisk biokemi
22	Post-Transcriptional Regulation of the Murine Inducible Nitric Oxide Synthase Gene Söderberg, Malin January 2005 (has links) Large amounts of nitric oxide (NO) are produced by the inducible nitric oxide synthase (iNOS) upon inflammatory stimuli. NO is a multifaceted molecule, which may have beneficial effects as an antimicrobial agent in the immune defense, or cytotoxic effects in chronic inflammations, manifested as e.g. arthritis and asthma. Understanding the mode of regulation of the iNOS gene is a prerequisite for developing intervention strategies in various pathological conditions where detrimental effects of NO need to be prevented. Transcriptional processes of the iNOS gene regulation are well described, while post-transcriptional events have not been studied in detail. The aim of the present thesis was to investigate post-transcriptional regulatory mechanisms involving the 3’untranslated region (UTR) of the murine iNOS mRNA. Inflammation-dependent RNA-protein interactions with the iNOS mRNA 3’UTR were characterized by RNA gel shift analysis and UV cross-linking. Trans-acting factors interacting with the 3’UTR were detected in mouse liver and macrophages and identified as heterogeneous nuclear ribonucleoproteins (hnRNP) I and L. Western blot revealed that reduced hnRNPI levels are responsible for the decreased interaction of hnRNPI with iNOS 3’UTR upon induction in inflammatory conditions. This decrease was reversed by the glucocorticoid dexamethasone, concomitant with decreased iNOS mRNA levels and stability. Introduction of the iNOS 3’UTR into a luciferase reporter gene reduced its expression in macrophages. Upon deletions of the binding sites for hnRNPI and hnRNPL, the luciferase expression was recovered. In addition, inflammatory stimuli increased the luciferase activity of the construct with the full-length 3’UTR, while only weak effects of the stimuli were seen on the deletion constructs. In conclusion, the results suggest that binding of hnRNPI and hnRNPL to the iNOS mRNA 3’UTR promotes degradation of the transcript. Induction of iNOS by inflammatory stimuli dissociates the RNA-protein complex, yielding a more stable mRNA. In addition, post-transcriptional down-regulation of the iNOS gene by the anti-inflammatory glucocorticoid dexamethasone, seems to involve hnRNPI. Pharmaceutical biochemistry iNOS inducible nitric oxide synthase gene regulation post-transcriptional mRNA stability RNA-protein interactions dexamethasone murine heterogeneous nuclear ribonucleoprotein hnRNPI hnRNPL Farmaceutisk biokemi Pharmaceutical biochemistry Farmaceutisk biokemi
23	Prevention of type 1 diabetes mellitus in experimental studies Holstad, Maria January 2001 (has links) The aim of the study was to examine the immune response and different immunoprotective strategies in experimental type 1 diabetes mellitus. The autoimmune destruction of the insulin-producing pancreatic β-cells that leads to type 1 diabetes is complex and incompletely understood. Activated immune cells infiltrate the pancreatic islets at an early stage of the disease, and they produce and release cytokines, which may contribute to β-cell dysfunction and death. Several immunomodulatory agents with different mechanisms have recently been developed in order to suppress cytokine function such as MDL 201, 449A, a novel transcriptional inhibitor of TNF-α. At least in rodent β-cells, many of the toxic actions of cytokines depend on the synthesis of nitric oxide (NO). Aminoguanidine (AG), an inhibitor of NO formation, might therefore be an interesting compound for prevention of type 1 diabetes. Another substance that could influence the course of events leading to this disease is the pituitary hormone prolactin (PRL), since it has the ability to activate different immune cells. We have studied the effects of AG, PRL and MDL 201, 449A on the development of hyperglycaemia and pancreatic insulitis in multiple low dose streptozotocin induced autoimmune diabetes in mice. The natural course after syngeneic islet transplantation of pancreatic islets in NOD mice, a model of type 1 diabetes mellitus was also investigated. AG and PRL were also studied in vitro on cultured isolated rodent pancreatic islets. We suggest that the insulin-producing cells are specifically targeted by the inflammatory response after syngeneic islet transplantation in type 1 diabetic mice. Our data do not exclude a role for NO in type 1 diabetes, but it raises concerns about the use of AG as a therapeutic agent since an increased mortality and no decline in diabetes frequency was observed. AG did not seem to be directly harmful to β-cell function, but it could affect pancreatic and islet blood flows. PRL and MDL 201, 449A could both counteract hyperglycaemia and insulitis in the early phase of autoimmune diabetes. Cell biology Cytokines inducible nitric oxide synthase nitric oxide NOD mice pancreatic islets prolactin syngeneic islet transplantation tumour necrosis factor alpha type 1 diabetes mellitus Cellbiologi Cell biology Cellbiologi
24	Endothelial TRPV4 dysfunction in a streptozotocin-diabetic Rat Model Shamsaldeen, Yousif January 2016 (has links) Diabetes mellitus is a complex disease characterised by chronic hyperglycaemia due to compromised insulin synthesis and secretion, or decreased tissue sensitivity to insulin, if not all three conditions. Endothelial dysfunction is a common complication in diabetes in which endothelium-dependent vasodilation is impaired. The aim of this study was to examine the involvement of TRPV4 in diabetes endothelial dysfunction. Male Charles River Wistar rats (350-450 g) were injected with 65mg/kg streptozotocin (STZ) intraperitoneally. STZ-injected rats were compared with naïve rats (not injected with STZ) or control rats (injected with 10ml/kg of 20mM citrate buffer, pH 4.0-4.5), if not both. Rats with blood glucose concentrations greater than 16mmol/L were considered to be diabetic. As the results revealed, STZ-diabetic rats showed significant endothelial dysfunction characterised by impaired muscarinic-induced vasodilation, as well as significant impairment in TRPV4-induced vasodilation in aortic rings and mesenteric arteries. Furthermore, STZ-diabetic primary aortic endothelial cells (ECs) showed a significant reduction in TRPV4-induced intracellular calcium ([Ca2+]i) elevation. TRPV4, endothelial nitric oxide synthase (eNOS), and caveolin-1 (CAV-1) were also significantly downregulated in STZ-diabetic primary aortic ECs and were later significantly restored by in vitro insulin treatment. Methylglyoxal (MGO) was significantly elevated in STZ-diabetic rat serum, and nondiabetic aortic rings incubated with MGO (100μM) for 12 hours showed significant endothelial dysfunction. Moreover, nondiabetic primary aortic ECs treated with MGO (100μM) for 5 days showed significant TRPV4 downregulation and significant suppression of 4-α-PDD-induced [Ca2+]i elevation, which was later restored by L-arginine (100μM) co-incubation. Incubating nondiabetic aortic rings with MGO (100μM) for 2 hours induced a spontaneous loss of noradrenaline-induced contractility persistence. Moreover, MGO induced significant [Ca2+]i elevation in Chinese hamster ovary cells expressing rat TRPM8 channels (rTRPM8), which was significantly inhibited by AMTB (1-5μM). Taken together, TRPV4, CAV-1, and eNOS can form a functional complex that is downregulated in STZ-diabetic aortic ECs and restored by insulin treatment. MGO elevation might furthermore contribute to diabetes endothelial dysfunction and TRPV4 downregulation. By contrast, MGO induced the loss of contractility persistence, possibly due to MGO's acting as a TRPM8 agonist. 616.4
25	Efeitos da enzima óxido nítrico sintase induzível (iNOS) no desenvolvimento e progressão do carcinoma de células escamosas bucal experimental e humano Servato, João Paulo Silva 26 August 2016 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A proteína óxido nítrico sintase induzível (iNOS) é a mais importante proteína da família das óxido nítrico sintases, a qual é capaz de produzir grandes quantidades de óxido nítrico. A indução permanente de iNOS foi levantada como potencialmente mutagênica, apresentando um papel central na biologia tumoral. O objetivo deste estudo é investigar o papel da iNOS no desenvolvimento de carcinomas de células escamosas bucais (CCEB), usando um modelo experimental de carcinogênese lingual em camundongos knockouts para NOS2 e amostras humanas derivadas da mucosa normal, leucoplasia bucal e CCEB. Camundongos selvagens (iNOS+/+) e knockout (iNOS-/-) para iNOS foram desafiados com 4-nitroquinolina-1-óxido (4NQO) diluída em água potável por 16 semanas e sacrificados após 0, 8 e 16 semanas de acompanhamento. As línguas foram removidas e o número de displasias e carcinomas foram contados. Sangue periférico destes camundongos foram analisados, por citometria de fluxo, em busca de células tumorais circulantes. Amostras humanas derivadas da mucosa normal, leucoplasia e CCEB, foram utilizadas para quantificar o RNA mensageiro (mRNA) de NOS2. As amostras humanas também foram imuno-coradas com anticorpos anti-iNOS e anti-nitrotirosina. Em ambos os grupos, foram observadas uma redução no número de displasias e um aumento de carcinomas da 16 semana até a 32 semanas. Camundongos iNOS-/- demonstraram menor número de lesões displásicas e neoplásicas em todos os períodos de avaliação, sendo menores e menos invasivas, quando comparados aos animais selvagens. Aparentemente, há uma tendência em ascensão nos níveis do mRNA e da proteína iNOS durante a carcinogênese bucal humana. Dados similares foram obtidos com a imuno-detecção de nitrotirosina. Além disso, as imuno-marcações de iNOS e nitrotirosina foram associadas a várias características clínicopatológicas dos CCEB (tamanho, presença de metástase, estadiamento e recidiva). Nossos resultados demonstraram que iNOS afeta o processo de carcinogênese bucal experimental e humana, estando associada com a gênese e progressão dos CCEB. Mais estudos devem ser feitos, para nos fornecer, uma compreensão profunda das funções de iNOS no desenvolvimento de câncer bucal. / Inducible nitric oxide synthase (iNOS) is most important protein of nitric oxide synthases family, which is capable to produce huge amounts of nitric oxide. Permanent induction of iNOS has been raised as potentially mutagenic; presenting pivotal roles in tumor biology. The aim of this study is to investigate the role of iNOS in the development of oral squamous cells carcinomas (OSCC), using a mouse model of oral carcinogenesis in NOS2 knockout animals and human samples derived from normal mucosa, leukoplakia and OSCC. Wild-type (iNOS+/+) and NOS2-knockout (iNOS-/-) mices, were challenged with 4- nitroquinoline- 1-oxide (4NQO) in drinking water for 16 weeks and killed after 0, 8 and 16 weeks of after treatment. Tongues were removed and the number of dysplasias and carcinomas was counted. Mice’s peripheral blood were analyzed by flux cytometry in search of circulating tumor cells. Human samples derived from normal mucosa, leukoplakia and OSCC, were utilized to relative quantify the amount of NOS2-mRNA. The human samples were also immune-stained with anti-iNOS and anti- Nitrotyrosine antibodies. In both groups, a reduction of dysplasias and an increase of carcinomas from week 16 to week 32 were observed. iNOS-/- mices had shown a small number of dysplastic and neoplastic lesion in all evaluated periods, moreover these lesions were usually smaller and less invasive when compared to wild type animals. Apparently, there is a rising tendency in the iNOS mRNA and protein levels during human oral carcinogenesis. Similar findings were obtained in the nitrotyrosine staining. Furthermore, iNOS and nitrotyrosine imuno-stained is associated with several clinic-pathological features of OSCC (site, presence of metastasis, staging and recidive). Our results shows that, iNOS affects the process of experimental and human oral carcinogenesis, being associated with OSCC genesis and progression. More studies should be done to provide us a deep understanding of the iNOS functions in oral cancer development. / Tese (Doutorado) CNPQ::CIENCIAS BIOLOGICAS::IMUNOLOGIA Imunologia Câncer Leucoplasia bucal Carcinogênese Óxido nítrico sintase induzível Carcinoma de células escamosas bucal Leucoplasia Displasia bucal Carcinogênese química Inducible nitric oxide synthase Oral squamous cell carcinoma Oral leukoplakia Oral dysplasia Chemical carcinogenesis
26	Estabelecimento de um modelo experimental de neurotuberculose / Establishment of an experimental model of neurotuberculosis Fabíola Cristina Ribeiro Zucchi 11 June 2007 (has links) A tuberculose (TB) é um grave problema de saúde pública. Somente no ano de 2004, cerca de 9 milhões de pessoas desenvolveram TB ativa e mais de 2 milhões de pessoas morreram da doença. O desenvolvimento de novos modelos experimentais de TB seriam de grande utilidade para para elucidar mecanismos fisiopatológicos da doença e testar esquemas terapêuticos para a prevenção e contenção da doença. Além disso, o desenvolvimento de novas vacinas torna-se indispensável como ferramenta de prevenção e controle da TB. A TB no sistema nervoso central (SNC), assim como em outros tecidos do organismo, promove a ativação de células inflamatórias. No SNC a micróglia desempenha este papel, sendo capaz de produzir ou ser influenciada por mediadores solúveis. Vários mediadores estão envolvidos nos mecanismos moleculares decorrentes da infecção e inflamação causados pela TB, entre eles: NFB, iNOS e VEGF. A ativação do NFB, um fator de transcrição citoplasmático que sob estímulo migra para o núcleo celular, tem íntima relação com a indução da iNOS e de VEGF. A resistência intracelular a patógenos, inclusive ao Mycobacterium tuberculosis, parece estar associada a expressão de iNOS em macrófagos. O óxido nítrico (NO) tem papel importante na comunicação intercelular, estimulando a síntese de mediadores inflamatórios, como as citocinas, e regulando sua própria produção endógena. Estas citocinas por sua vez também podem induzir a atividade do NFB e a expressão da iNOS e VEGF. O VEGF é um potente ativador de permeabilidade vascular e de angiogênese, envolvido na ruptura da barreira hemato-encefálica. Neste estudo, mostramos a caracterização morfológica e imuno-histoquímica de um modelo murino de TB no SNC, com a indução da doença pela inoculação de BCG. Com este modelo experimental obtivemos importantes resultados que podem esclarecer mecanismos envolvidos na fisiopatologia da neuro-TB humana. A indução de meningite e tuberculomas foi possível através da inoculação de 104 cfu de BCG no cerebelo de camundongos, por estereotaxia, e esta indução foi dependente do tempo. A confirmação do diagnóstico foi feita pela detecção de bacilos álcool-ácido resistentes (BAAR), nas lesões tuberculosas. Observamos, ao longo do tempo (1 a 6 dias; 1, 2, 4 e 8 semanas) o recrutamento de diferentes populações gliais (micróglia e astrócitos) no sítio de injeção. Houve aumento de produção e ativação NFB nas lesões tuberculosas, caracterizada pela translocação da molécula do citoplasma para o núcleo celular. Houve expressão de iNOS restrita às lesões tuberculosas, além do aumento de expressão de VEGF nestas lesões. Além disso, camundongos imunizados com a vacina gênica hsp65, contra a TB, não expressam VEGF em suas lesões. Esta vacina parece conferir um efeito protetor em nosso modelo experimental, reduzindo a expressão de VEGF, e consequentemente reduzindo seu efeito angiogênico decorrente do processo inflamatório. O recrutamento glial, e a produção de mediadores solúveis (NFB, iNOS e VEGF) pelo hospedeiro, em resposta à invasão do patógeno no SNC, parecem estar envolvidos na fisiopatologia da neurotuberculose, como demonstrado neste modelo experimental. Nosso modelo permitirá investigar fatores possivelmente responsáveis pelo desenvolvimento e manutenção de lesões tuberculosas no SNC. O objetivo final seria elucidar a fisiopatologia desta grave doença e compreender eventos moleculares envolvidos na produção de lesões. O conhecimento gerado poderá permitir o delineamento de terapias específicas e efetivas. / Tuberculosis (TB) is a serious public health problem; in 2004, 9 million people developed active TB and the disease killed 2 million patients. Development of experimental models and new vaccines are essential both to elucidate physiopathological mechanisms and to control the disease. This infection in the central nervous system (CNS), as in other tissues of the organism, activates inflammatory cells. In CNS, this role is performed by the microglia, which is capable of producing or be influenced by soluble mediators. Several mediators are involved in the molecular mechanisms of the infection and inflammation by mycobacteria , such as NFB, iNOS and VEGF. NFB activation, a cytoplasmic transcriptional factor that migrates to the cellular nucleus under stimuli, is involved with the iNOS and VEGF induction of expression. The intracellular resistance to Mycobacterium tuberculosis has been associated with iNOS expression in macrophage cells. Nitric oxide (NO) is crucial in intercellular communication, modulating the synthesis of mediators of inflammation, such as cytokines, and modulation itself. These cytokines induces NFB activity, and induces iNOS and VEGF expression. VEGF is a potent activator of vascular permeability and of angiogenesis and it is a factor involved in the breakdown of the blood brain-barrier in tuberculous meningitis. In this study, we showed the morphologic and immunohistochemistry characterization of an experimental model of TB in the CNS, with inoculation of BCG in mice. In this model we elicited important outcome that can elucidate mechanisms involved in the physiopathology of human neuron-TB. Induction of meningitis and tuberculomas were possible with stereotaxic inoculation of 104 cfu of BCG in mice cerebellum, in a time-dependent way. Diagnostic was confirmed by detection of alcohol-acid resistant bacilli (BAAR), in tuberculous lesions. We observed, the time-course (1 to 6 days; 1, 2, 4 e 8 weeks) of the recruitment of different glial populations (microglia and astrocytes) in the injection site. There was increased production and activation of NFB in the tuberculous lesions, it was characterized by its nuclear translocation from cytoplasm. There was iNOS expression only in the tuberculous lesions, and expression increased of VEGF in these lesions. Furthermore, mice immunizated with vaccine DNA-hsp65 there was no expression of VEGF in its lesions. This vaccine seems confer a protector effect in our experimental model, reducing the expression of VEGF, and then reducing its angiogenic effect derived from inflammatory process. Glial recruitment, and the soluble mediators production (NFB, iNOS e VEGF) by the host, producing in response to invasion of the pathogen in the CNS, has been involved in the pathophysiology of the neuro-TB, such as demonstrated in this experimental model. Our model will allow investigate possible factors responsible for the development and maintenance of tuberculous lesions in the CNS. The final aim is to elucidate the physiopathology of this serious illness and understand the molecular events involved in the production of the lesions. The knowledge created may permit to pave the way to delineate specific and effective therapies. granuloma iNOS (oxido nitrico sintase induzida) microglia NFkB (fator nuclear kB) sistema nervoso central tuberculose central nervous system granuloma iNOS (inducible nitric oxide synthase). microglia NFkB (nuclear factor kB) tuberculosis
27	Rôle et mécanisme d’action du récepteur B1 des kinines dans la rétinopathie diabétique et la dégénérescence maculaire liée à l’âge Othman, Rahmeh 04 1900 (has links) Le système kallicréine-kinines est un système peptidergique complexe impliqué dans les processus inflammatoires, le contrôle du tonus et de la perméabilité vasculaire. Les effets biologiques des kinines sont accomplis par l’intermédiaire de deux types de récepteurs couplés aux protéines G, soit le récepteur B1 (B1R) et le récepteur B2 (B2R). Alors que le B2R est un récepteur constitutif, le B1R est faiblement exprimé en situation physiologique; il est induit par le stress oxydatif, les cytokines pro-inflammatoires (interleukine-1β (IL-1β) et le facteur de nécrose tumorale-α (TNF-α)) ou par des endotoxines bactériennes à la fois au niveau systémique et local, notamment dans la rétine. Des études récentes de notre laboratoire ont montré l’implication du B1R dans la pathogenèse et la progression de la rétinopathie diabétique et de la dégénérescence maculaire liée à l’âge (DMLA). Les objectifs des travaux présentés dans cette thèse consistent à déterminer : 1) le mécanisme par lequel le B1R est impliqué dans la rétinopathie diabétique chez le rat; 2) l’implication de la iNOS en aval dans la cascade inflammatoire activée par le B1R; 3) l’expression et la localisation cellulaire du B1R dans les rétines humaines atteintes de DMLA exsudative et atrophique. Nos résultats ont permis de démontrer une implication du B1R dans la rétinopathie diabétique via l’activation de l’enzyme de synthèse du monoxyde d’azote inductible (iNOS) dans un modèle de diabète de type 1 induit par la streptozotocine (STZ) chez le rat. En plus de sa localisation généralisée dans toute la rétine, le B1R est exprimé dans la couche de l’épithélium pigmentaire qui forme la barrière hémato-rétinienne externe. Les taux d’expression (protéique et ARNm) du B1R, de la iNOS, de la carboxypeptidase M (impliquée dans la biosynthèse des agonistes B1R), de l'IL-1β, du TNF-α, du facteur de croissance de l'endothélium vasculaire A (VEGF-A) et de son récepteur, le VEGF-R2, ainsi que des protéines nitrosylées augmentent à deux semaines dans la rétine diabétique. Ces augmentations ainsi que l’hyperperméabilité vasculaire rétinienne induite par le diabète et par l’injection intravitréenne d’un agoniste du B1R (R-838) sont bloquées par un inhibiteur de la iNOS (1400W) appliqué topiquement à la surface de l’œil pendant 1 semaine (premier article). Les résultats du deuxième article montrent une augmentation significative de l'immunoréactivité du B1R dans les rétines humaines prélevées de patients atteints de DMLA exsudative. Toutefois, les changements d’immunoexpression du B1R ne sont pas significatifs dans les rétines des patients atteints de DMLA atrophique. La réactivité des cellules gliales est plus marquée dans la forme exsudative que dans la forme atrophique de DMLA. Une colocalisation du B1R est observée avec des marqueurs des cellules de Müller, des astrocytes, de la microglie, de la iNOS et de la fibrose, suggérant une implication du B1R dans le processus inflammatoire et la formation de fibrose dans la DMLA exsudative. En revanche, l’expression du B2R demeure stable dans les rétines de DMLA exsudative et atrophique par rapport aux rétines témoins; ce résultat ne supporte pas la possibilité que ce récepteur puisse être impliqué dans la DMLA chez l’humain. / The kallikrein-kinins system is a peptidergic system involved in inflammatory processes, the control of the vascular tone and permeability. These effects are mediated by two G proteincoupled receptors, the Bradykinin type 1 (B1R) and type 2 (B2R) receptors. While the B2R is a constitutive receptor, B1R is almost undetectable in physiological condition; it is, however, induced by oxidative stress, pro-inflammatory cytokines (interleukin-1β (IL-1β) and tumor necrosis factor-α (TNF-α)) or by bacterial endotoxins at both systemic and local levels, notably in the retina. Recent studies from our laboratory supported an implication of B1R in the pathogenesis and progression of diabetic retinopathy and age-related macular degeneration (AMD). This thesis aims at unraveling: 1) the mechanism by which B1R is involved in diabetic retinopathy in rats; 2) the involvement of iNOS in the inflammatory cascade downstream to the B1R; and, 3) the expression and cellular localization of B1R in human retinae with exudative and atrophic AMD. Our results have shown the implication of B1R in diabetic retinopathy via the activation of the inducible nitric oxide synthase (iNOS) in a type 1 model of diabetes induced by streptozotocin (STZ) in rats. In addition to its generalized localization throughout the retina, B1R is expressed in the retinal pigment epithelium which forms the outer blood-retinal barrier. The protein and transcript expression of inflammatory markers; iNOS, carboxypeptidase M, IL-1β, TNF-α, vascular endothelium growth factor A (VEGF-A) and its receptor, VEGF-R2, including B1R as well as nitrosylated proteins are increased in the retina of diabetic rats at 2 weeks post-STZ. These upregulations, as well as the retinal vascular hyperpermeability induced by diabetes and by the intravitreal injection of an B1R agonist (R-838) are blocked by a topical one-week treatment by eye-drop with the selective iNOS inhibitor (1400W) (first manuscript). The results of the second manuscript show significant increases in the immunoreactivity of B1R in exudative AMD retinae. Despite a slight increase, B1R immunostaining does not reach statistical significance in the retina of donors with atrophic AMD. The reactivity of glial cells is more impressive in the exudative than in the atrophic form of AMD. B1R is co-expressed with markers of Müller cells, astrocytes, microglia, iNOS and fibrosis, suggesting an involvement of B1R in the inflammatory events and the formation of fibrosis in exudative AMD. On the other hand, the expression of B2R remains stable in the retinae of exudative and atrophic AMD, supporting a secondary role of this receptor in AMD in humans. Système kallicréine-kinines Récepteur B1 des kinines Rétinopathie diabétique Kallikrein-kinins system Bradykinin type 1 receptor Inducible nitric oxide synthase Diabetic retinopathy Age-related macular degeneration
28	The role of the JNK/AP-1 pathway in the induction of iNOS and CATs in vascular cells Zamani, Marzieh January 2013 (has links) Nitric oxide (NO) is an important biological molecule within the body, which over production of this molecule in response to different stimulations can cause various inflammatory diseases. Over production of this molecule is caused by the induction of the inducible nitric oxide synthase (iNOS) enzyme. This enzyme uses L-arginine as a substrate and therefore the presence and transport of this amino acid into the cells can be a key factor in regulating NO over production. Different signalling mechanisms have been implicated in the regulation of this pathway and one of which involves the Mitogen Activated Protein Kinases (MAPK). This family of proteins respond to inflammatory conditions and may mediate effects induced by inflammatory mediators. Of the MAPKs, the role of the c-Jun-N-terminal kinase (JNK) pathway in the induction of iNOS is still controversial. JNK and its downstream target, the transcription factor Activator Protein-1 (AP-1), have shown contradictory effects on iNOS induction leading to controversies over their role in regulating iNOS expression in different cell systems or with various stimuli. The studies described in this thesis have determined the role of JNK/AP-1 on iNOS expression, NO production, L-arginine uptake and also on the transporters responsible for L-arginine transport into the cells. The studies were carried out in two different cell types: rat aortic smooth muscle cells (RASMCs) and J774 macrophages which are both critically associated with the over production of NO in vascular inflammatory disease states. The first approach was to block the expression of the inducible L-arginine-NO pathway using SP600125 and JNK Inhibitor VIII which are both pharmacological inhibitors of JNK. The results from these studies showed that the pharmacological intervention was without effect in RASMCs, but inhibited iNOS, NO and L-arginine transport in J774 macrophages. In contrast, the molecular approach employed using two dominant negative constructs of AP-1 (TAM-67 and a-Fos) revealed a different profile of effects in RASMCs, where a-Fos caused an induction in iNOS and NO while TAM-67 had an inhibitory effect on iNOS, NO, L-arginine transport and CAT-2B mRNA expression. The latter was unaffected in RASMCs but suppressed in J774 macrophages by SP600125. Examination of JNK isoforms expression showed the presence of JNK1 and 2 in both cell systems. Moreover, stimulation with LPS/IFN- or LPS alone resulted in JNK phosphorylation which did not reveal any difference between smooth muscle cells and macrophages. In contrast, expression and activation of AP-1 subunits revealed differences between the two cell systems. Activation of cells with LPS and IFN- (RASMCs) or LPS alone (J774 macrophages) resulted in changes in the activated status of the different AP-1 subunit which was different for the two cell systems. In both cell types c-Jun, JunD and Fra-1 were increased and in macrophages, FosB activity was also enhanced. Inhibition of JNK with SP600125 caused down-regulation in c-Jun in both cell types. Interestingly this down-regulation was in parallel with increases in the subunits JunB, JunD, c-Fos and Fra-1 in RASMCs or JunB and Fra-1 in J774 macrophages. Since, SP600125 was able to exert inhibitory effects in the latter cell type but not in RASMCs, it is possible that the compensatory up-regulation of certain AP-1 subunits in the smooth muscle cells may compensate for c-Jun inhibition thereby preventing suppression of iNOS expression. This notion clearly needs to be confirmed but it is potentially likely that hetero-dimers formed between JunB, JunD, c-Fos and Fra-1 could sustain gene transcription in the absence of c-Jun. The precise dimer required has not been addressed but unlikely to exclusively involve JunB and Fra-1 as these are up-regulated in macrophages but did not sustain iNOS, NO or induced L-arginine transport in the presence of SP600125. To further support the argument above, the dominant negatives caused varied effects on the activation of the different subunits. a-Fos down-regulated c-Jun, c-Fos, FosB, Fra-1 whereas TAM-67 reduced c-Jun and c-Fos but marginally induced Fra-1 activity. Associated with these changes was an up-regulation of iNOS-NO by a-Fos and inhibition by TAM-67. Taken together, the data proposes a complex mechanism(s) that regulate the expression of the inducible L-arginine-NO pathway in different cell systems and the complexity may reflect diverse intracellular changes that may be different in each cell type and not always be apparent using one experimental approach especially where this is pharmacological. Moreover, these findings strongly suggest exercising caution when interpreting pure pharmacological findings in cell-based systems particularly where these are inconsistent or contradictory. 616.0473
29	Die Charakterisierung der induzierbaren Stickstoffmonoxidsynthase im murinen RENCA-Nierenzellkarzinommodell unter spezieller Berücksichtigung tumorassoziierter Makrophagen, der Gefäßdichte und Tumorhypoxie / Characterization of inducible nitric oxide synthase in murine renal cell carcinoma considering of tumor associated macrophages, vessel distance and tumor hypoxia Krösel, Juliane Franziska 11 March 2013 (has links) Einleitung: Ziel dieser Arbeit war es, das RENCA-Nierenzell-Karzinommodell anhand der Hypoxie-induzierten Nekrosen, der Makrophageninfitration sowie der iNOS-Expression und –aktivität zu charakterisieren. Methoden: Für die Erzeugung lokaler Tumoren, wurden Balb/c-Mäusen in vitro kultivierte RENCA-Zellen subkutan appliziert. Die Quantifizierung des Makrophageninfiltrates sowie die Charakterisierung der Hypoxie im Tumorgewebe erfolgten mittels immunhistochemischer Färbungen. Für die Darstellung der Stickstoffmonoxid-Aktivität kamen neben der Immunhistochemie die Reverse Transkriptase Polymerase-Kettenreaktion (RT-PCR) zur Anwendung. Der Nitrit-Gehalt der Tumorproben wurde mittels Griess-Reaktion bestimmt. Ergebnisse: Spontan hypoxische Tumornekrosen sind assoziiert mit einer signifikant geringeren Gefäßdichte. Das Ausmaß der Nekrosen korreliert mit dem Alter der Tumoren. Alte Tumoren (28 Tage) zeigen eine höhere Makrophageninfiltration als junge Tumoren (12 bis 19 Tage). Obwohl die iNOS-Expression auf Proteinebene keinen signifikanten Unterschied zwischen alten und jungen Tumoren ergab, findet sich auf mRNA-Ebene eine signifikant erhöhte iNOS-Expression in alten Tumoren. Hinsichtlich der αActinin-4-Expression konnte kein signifikanter Unterschied gesehen werden. Schlussfolgerung: Bei annähernd gleicher iNOS- und αActinin-4-Expression beziehungsweise erhöhter iNOS-mRNA-Expression ist die Konzentration an Nitrit in Tumoren mit hypoxischer Nekrose reduziert. Daraus kann man schließen, dass die Aktivität der NO-Synthase unter hypoxischen Bedingungen reduziert ist. Dies stützt wiederum die Vermutung, einer die iNOS-Aktivität steuernden normoxie-abhängigen Assoziation von αActinin-4 und iNOS. Die Aktivitätsinhibierung der iNOS könnte somit ein Mechanismus sein, durch den Hypoxie die Zytotoxizität von TAM inhibiert. Die abnehmende Gefäßdichte mit zunehmendem Tumoralter könnte möglicherweise auf eine Regression der Tumorgefäße zurückzuführen sein. Denkbar wäre, dass die Gefäßregression durch makrophagenabhängige Zytokine begünstigt wird. 610 induzierbare Stickstoffmonoxidsynthase Tumorhypoxie murines Nierenzellkarzinom iNOS-Expression Makrophageninfiltration Gefäßdichte tumorassoziierte Makrophagen Tumornekrose inducible nitric oxide synthase tumor hypoxia murine renal cell carcinoma iNOS expression macrophage infiltrate vessel distance tumor associated macrophages tumor necrosis
30	Selective inhibition of inducible nitric oxide synthase prevents lipid peroxidation in cartilage from patients with osteoarthritis Bentz, Mireille 04 1900 (has links) No description available. Osteoarthritis Chondrocyte Lipid peroxydation Nitric Oxide L-N6-(L-Iminoethyl)Lysine Inducible Nitric Oxide Synthase Oxydative Stress Reactive Oxygen Species Cartilage Arthrose Péroxydation Lipidique Chondrocytes 4-Hydroxynonénal Oxyde Nitrique L-N6-(L-Iminoethyl)Lysine Stress Oxydatif Oxyde Nitrique Synthétase Inductible Espèces réactives d’oxygène

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