Global ETD Search

51	Vias de transdução de sinal do receptor tipo Toll 4 nas células pancreáticas e seus efeitos na secreção e produção de insulina / Toll-like receptor 4 signal transduction pathways in pancreatic cells and their effect on insulin secretion and production Fernanda Vieira Paladino 28 August 2012 (has links) INTRODUÇÃO: O receptor tipo Toll 4 (TLR4) pertencente a uma família de receptores do sistema imune inato, reconhece o padrão molecular de lipopolissacarídeos (LPS), expressos por bactérias Gram negativas. Sua cascata de sinalização, nas células apresentadoras de antígeno, ocorre por duas vias principais: MyD88-dependente, que resulta na ativação de NF-B e na expressão de genes de resposta inflamatória e MyD88-independente, responsável pela ativação dos fatores IRF3 e IRF7, culminando na síntese de interferons e , envolvidos na resposta anti-viral e anti-bacteriana. Células não-imunes, de diversos tecidos, também expressam TLR4, incluindo células pancreáticas murinas e humanas. Devido ao seu papel nos processos inflamatórios, os TLR estão implicados em doenças crônicas como obesidade e diabetes. Estudo anterior do grupo identificou TLR4 como uma molécula que ativa sinais inflamatórios e provoca alterações na homeostase das células . Neste trabalho, investigamos qual via é ativada por LPS e quais os efeitos da expressão do TLR4 na viabilidade celular e na produção de insulina em células murinas. MÉTODOS: Células MIN6 (linhagem celular de insulinoma de camundongo) foram cultivadas em condições de hipo (2,8mM glicose), normo (5,6mM glicose) e hiperglicemia (11,2mM glicose), por 4 dias. Após esse período, foi adicionado LPS (50 ng/mL) por 48h e foram feitas análises por PCR em tempo real, Western Blot, ELISA e citometria de fluxo. RESULTADOS: Os resultados confirmam o aumento de TLR4 em células em condições de hiperglicemia e a via de sinalização ativada por LPS é a via MyD88-dependente, envolvida na produção de citocinas pró-inflamatórias. A via de indução de intérferons tipo 1 está ausente nestas células. Além disso, TLR4 ativado por LPS aumentou secreção de insulina em resposta a glicose, mas não induziu a morte celular. CONCLUSÃO: A expressão de TLR4 em células pancreáticas murinas é induzida em resposta ao aumento da glicemia, constituindo um novo elo entre a agressão à célula causada por altos níveis de glicose e a alteração da função celular induzida por LPS / INTRODUCTION: Toll-like receptor 4 (TLR4) belongs to a family of innate immunity receptors and recognizes the molecular pattern present in lipopolysaccharides (LPS), typical of Gram-negative bacteria. There are two TLR4 signaling pathways, typically in antigen-presenting cells: one is MyD88-dependent, activating NF-kB transcription factor and triggering inflammatory cytokine production and the other is MyD88-independent, leading to activation of IRF3 and IRF-7 and production of interferons e , involved in antiviral and antibacterial immune responses. Non-immune cells in several tissues also express TLR4, including human and murine pancreatic cells. Due to their role in inflammatory processes, TLRs have been implicated in chronic diseases like obesity and diabetes. Our previous study identified TLR4 as a molecule which activates inflammatory signals and induces changes in cell homeostasis. In this study, we investigated which of the TLR4 pathways is activated by LPS and the effects of glucose levels on cell viability and insulin production in a mouse insulinoma cell line. METHODS: MIN6 cells were maintained in low (2,8mM), normal (5,6mM) and high (11,2mM) glucose levels for 4 days, and then incubated with LPS (50 ng/mL) for 48 hours. Analyses were done by real-time PCR, Western Blot, ELISA and flow cytometry. RESULTS: Analysis confirmed increase in TLR4 gene expression in hyperglycemic conditions and showed that the signaling pathway activated by LPS is MyD88-dependent. The interferon induction pathway is absent in these cells. Furthermore, upon activation by LPS, TLR4 impacts on insulin secretion in response to glucose, but without triggering cell death. CONCLUSION: We conclude that TLR4 expression in mouse pancreatic cells is induced in response to increased glucose levels, constituting a new link in the chain of events leading to cell stress caused by high glucose levels with concomitant changes in cell function induced by LPS Células secretoras de insulina Insulina Linhagem celular MIN6 Lipopolissacarídeos Receptor 4 Toll-like Via MyD88-dependente Cell line MIN6 Insulin Insulin-secreting cells Lipopolysaccharides MyD88-dependent pathway Toll-like receptor 4
52	Análise do gene AIP na acromegalia familial isolada / Analysis of the AIP gene in familial isolated acromegaly Rodrigo de Almeida Toledo 14 April 2010 (has links) A acromegalia é doença insidiosa e desfigurante caracterizada por um crescimento desproporcional dos ossos das mãos, pés e do crânio devido à exposição crônica a altos níveis de hormônio de crescimento (GH) e de seu efetor insuline growth factor 1 (IGF-1). Trata-se de uma doença rara, com incidência estimada de 3-4 casos por milhão, com prevalência de aproximadamente 50 casos por milhão de pessoas. A principal causa da acromegalia é a presença de um tumor hipofisário secretor de GH (somatotropinoma). Caso o somatotropinoma ocorra durante a infância ou adolescência, antes do fechamento das epífises dos ossos longos, a criança crescerá longitudinalmente de forma descontrolada, caracterizando a forma clínica gigantismo. Na grande maioria dos casos a acromegalia se apresenta na forma esporádica, entretanto casos familiais da doença podem ocorrer associados à Neoplasia Endócrina Múltipla tipo 1 (NEM-1), ao complexo de Carney (CNC) e à acromegalia familial isolada (IFS). Os genes responsáveis pela NEM-1 (MEN1) e CNC (PRKAR1A) foram clonados há mais 10 anos, entretanto etiologia molecular da IFS permaneceu desconhecida até recentemente. Vierimaa et al. (2006) combinaram estudos de ligação por análise de polimorfismos e estudos de expressão gênica e identificaram mutações no gene AIP em famílias com acromegalia não-NEM-1 e não-CNC; além de perda de heterozigose (LOH) nos somatotropinomas dos pacientes com mutação AIP. No presente estudo, investigamos o gene AIP em três famílias brasileiras com IFS e em seus tumores (hipofisários e não-hipofisários). Descrevemos uma nova mutação AIP (Y268X) em uma família brasileira com IFS, confirmando o papel desse novo gene na predisposição a tumores hipofisários. A partir de dados gerados em uma extensa revisão da literatura, sugerimos que os tumores hipofisários familiais isolados são doenças multigênicas que possuiriam um gene principal, mas que sofreriam influência de outros genes/loci ainda pouco caracterizados. Assim, investigamos também o envolvimento de diversos genes/loci candidatos (SSTR2, SSTR5, CDKN1B, AHR, PRKAR1A, PTTG, PROP1, MEG3, RB1 e 2p16) como possíveis moduladores do fenótipo na IFS. Nossos dados sugerem que além da mutação AIP, há necessidade da co-segregação de marcadores localizados em regiões com potencial oncogênico para o desenvolvimento da doença hipofisária. Também apresentamos nesta Tese as primeiras análises de tumores nãohipofisários em pacientes com mutação AIP e encontramos evidências do possível envolvimento de AIP na tumorigênese de um carcinoma funcionante do córtex adrenal de paciente com IFS. / Acromegaly is a rare disfigurating and insidious disease characterized by enlargement of hands, feet and skull bones due to excess of growth hormone (GH) secreted by a pituitary tumor (somatotropinoma). The majority of the cases with acromegaly is sporadic, however it may occur in association with inherited disorders as Multiple Endocrine Neoplasia type 1 (MEN1), Carney complex (CNC) and Isolated Familial Somatotropinoma (IFS). The genes associated with MEN1 syndrome (MEN1) and CNC (PRKAR1A) have been described more than a decade ago, however until very recently the molecular etiology of IFS remained unknown. Using a combined strategy of single nucleotide polymorphism (SNP) analysis and gene expression analysis, Vierimaa et al. (2006) described mutations in the AIP gene occurring in families with acromegaly not associated with MEN1 and CNC. In the current study, we investigated three Brazilian families with IFS and were able to describe two germline mutations in the AIP gene, confirming the role of this new gene in the predisposition to familial somatotropinoma. We revised the literature of genetic studies of isolated pituitary adenoma syndromes, which indicated a genetic heterogeneity as well as possible multigenic inheritance for these diseases. Thus, we investigated the role of several genes/loci (SSTR2, SSTR5, CDKN1B, AHR, PRKAR1A, PTTG, PROP1, MEG3, RB1 and 2p16) selected as potentially acting as phenotypic modulators in IFS. Our data indicate that AIP-mutated patients are prone to pituitary disease, however it is necessary the co-segregation of markers located at oncogenic regions to the development of the pituitary tumors and manifestation of the disease. Herein, we also present the first somatic analysis of non-pituitary tumors of AIP-mutated patients. A potential role of AIP, which is implicated in the cAMP pathway, could not be excluded in the development of an adrenocortical carcinoma. Acromegalia/genética AMP cíclico Genes supressores de tumor Neoplasia endócrina múltipla/genética Perda de heterozigosidade Acromegaly/genetics Cyclic AMP DNA mutational analysis Tumor suppressor genes
53	Papel das citocinas IL-5 e IL-17A na diferenciação de células produtoras de anticorpos de vida longa (ASC) induzida pelo veneno do peixe Thalassophryne nattereri / The role of IL-5 and IL-17A in the differentiation of long-lived antibody secreting cells (ASC) induced by Thalassophryne nattereri fish venom Lidiane Zito Grund 15 September 2009 (has links) O veneno do T.nattereri induz uma resposta de memória com a diferenciação de células B B220neg, indicativo de células produtoras de anticorpos de vida longa (ASC). Para avaliar o efeito do veneno na diferenciação de ASCs, camundongos BALB/c foram imunizados e sacrificados nos dias 21, 28, 48, 74 e 120 para avaliação de anticorpos plasmáticos e células B no peritônio, baço e medula óssea. O veneno induziu intensa esplenomegalia, formação de centros germinativos e persistentes níveis de anticorpos específicos IgG1, IgG2a e IgE anafilática. Células B1a e ASC apareceram rapidamente e a população de ASC CD138pos foi dividida em três subtipos (B220highCD43high, B220lowCD43low, e B220negCD43high) que persistiram em diferentes níveis em todos compartimentos. Finalmente, por métodos de neutralização nós sugerimos um papel importante da IL-5 e IL-17 A no desenvolvimento de ASC B220neg e na população B1a e mais ainda, a produção de TNF-a, IL-1b, IL-6, KC bem como a retenção do veneno nas células dendríticas foliculares parece promover os mecanismos para manutenção das ASCs. / T. nattereri fish venom induces a memory immune response with the differentiation of B cells B220neg, an indicative of long-lived antibody-secreting cells - ASC. To assess the effect of the venom on differentiation of ASCs, BALB/c mice were immunized with venom and sacrificed at days 21, 28, 48, 74 and 120 to evaluate plasmatic antibodies and B cell subtypes in peritoneum, spleen and bone marrow. The venom promoted splenomegaly, germinal centers formation and persistent levels of specific antibodies IgG1, IgG2a and anaphylactic IgE. B1a cells and ASC emerged rapidly and CD138pos ASCs can be divided into three subsets (B220high CD43high, B220low CD43low, and B220neg CD43high) that persist at different levels in all compartments. Finally, by neutralization methods we suggested an important role for IL-5 and IL-17A on development of B220neg ASCs and B1a population and moreover the production of TNF-a, IL-1b, IL-6, KC as well as the venom retained in follicular dendritic cells seem to provide mechanisms to explain the maintenance of ASCs. Anticorpos de alta afinidade Célula B1a Citocinas IL-5 e IL-17A Memória imunológica Plasmócito de vida longa (ASC) Veneno de peixe Bia cells Fish venom High-affinity antibodies IL-5 and IL-17A cytokines Immunological memory
54	Cushing’s Disease in a 7-Month-Old Girl due to a Tumor Producing Adrenocorticotropic Hormone and Thyreotropin-Secreting Hormone List, Jörg V., Sobottka, Stephan B., Hübner, Angela, Bonk, Constanze, Koy, Jan, Pinzer, Thomas, Schackert, Gabriele January 1999 (has links) We present the case of a 7-month-old baby with Cushing’s disease due to an adrenocorticotropic hormone (ACTH)-secreting pituitary adenoma combined with cells producing thyreotropin-secreting hormone (TSH). In MRI scans, a contrast-enhancing lesion was seen inside the pituitary fossa, and it extended into the suprasellar region. On the assumption of a pituitary adenoma, surgery was performed. Corresponding with biochemical findings, histopathological evaluation revealed an ACTH- and TSH-producing tumor. Genetic analysis did not demonstrate an alteration at codon 201 (Arg) and 227 (Glu). To our knowledge, this is the first case described in a child of this age. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/610 ddc:610
55	Étude de la fonction du récepteur aux acides gras GPR120/FFAR4 dans la régulation de l’homéostasie du glucose Guillaume, Arthur 05 1900 (has links) Le diabète de type 2 (DT2) résulte de l’incapacité des cellules β sécrétrices d’insuline à compenser la résistance à l’insuline qui s’installe chez les patients obèses. Un traitement potentiel viserait donc à augmenter la sécrétion d’insuline. Dans ce sens, les récepteurs aux acides gras GPR120 et GPR40 potentialisent la sécrétion d’insuline. Cependant, la signalisation GPR120 dans les îlots est méconnue. L’activation de GPR120 diminue la sécrétion de somatostatine (SST), un inhibiteur de la sécrétion d’insuline, par les cellules δ. Ces deux récepteurs régulent l’homéostasie du glucose et sont donc possiblement complémentaires. Nos objectifs étaient d’étudier la signalisation GPR120 dans les îlots pancréatiques, ainsi que la complémentarité des récepteurs GPR120 et GPR40 dans le contrôle de l’homéostasie glucidique. À l’aide d’îlots isolés de souris n’exprimant pas GPR120, constitutivement ou uniquement dans les cellules δ, nous avons étudié le rôle de GPR120 dans les sécrétions d’insuline, glucagon et de SST. Nous avons ensuite étudié des souris n’exprimant pas GPR40, GPR120 ou les deux, sous une diète riche en gras pendant 12 semaines pour étudier la complémentarité des deux récepteurs. L’activation de GPR120 diminue la sécrétion de SST et stimule les sécrétions d’insuline et de glucagon dans les îlots isolés. Cet effet est aboli par la délétion de GPR120 dans les cellules δ in vitro, et la double délétion de GPR120 et GPR40 ne révèle pas d’action complémentaire dans l’homéostasie glucidique. Ces résultats suggèrent que la signalisation GPR120 dans les cellules δ est responsable de l’amélioration de la fonction des îlots. Une meilleure compréhension du rôle joué par GPR120 dans la fonction des îlots et l’homéostasie du glucose est cruciale et pourrait permettre le développement de nouvelles options thérapeutiques dans le traitement du diabète. / In obese patients, type 2 diabetes stems from the failure of the insulin-secreting beta cells to compensate for insulin resistance. Increasing insulin secretion is therefore a viable treatment strategy. In this regard, G protein-coupled receptors (GPCR) are proven therapeutic targets. Activation of the GPCR for long-chain saturated and unsaturated fatty acid GPR40 and GPR120 increase insulin secretion in response to glucose. However, exactly how GPR120 potentiates insulin secretion is unknown. GPR120 and GPR40 both regulate glucose homeostasis and therefore could act in a complementary manner. We aimed to decipher GPR120 signalling in the pancreatic islets and study the complementary roles of GPR120 and GPR40 in maintaining glucose homeostasis. To this aim, we first measured insulin, glucagon and somatostatin secretion following GPR120 activation in isolated islets from mice with a global or somatostatin-cell-specific knock-out of GPR120. Then we studied glucose metabolism in mice with global deletion of GPR120, GPR40 or both, under a high fat diet for 12 weeks. We observed increased insulin and glucagon secretions mirrored by a decreased in somatostatin release following GPR120 activation in isolated islets, an effect abolished by a global or δ-specific deletion of GPR120. A double deletion of GPR120 and GPR40 did not have more impact on glucose metabolism or beta-cell function compared to a simple deletion of either receptor. A better understanding of the GPR120 role in islet function is crucial and could lead to the discovery of new therapeutic options. Diabète sucré GPR120 GPR40 îlots de Langerhans cellules delta cellules bêta cellules alpha FFAR4 FFAR1 Pancreatic islet Type 2 diabetes Somatostatin-secreting cells Beta cells Alpha cells
56	TXNIP is a Mediator of ER Stress-Induced β-Cell Inflammation and Apoptosis: A Dissertation Oslowski, Christine M. 11 May 2012 (has links) Diabetes mellitus is a group of metabolic disorders characterized by hyperglycemia. The pathogenesis of these diseases involves β-cell dysfunction and death. The primary function of β-cells is to tightly regulate the secretion, production, and storage of insulin in response to blood glucose levels. In order to manage insulin biosynthesis, β-cells have an elaborate endoplasmic reticulum (ER). The ER is an essential organelle for the proper processing and folding of proteins such as proinsulin. Proteins fold properly when the ER protein load balances with the ER folding capacity that handles this load. Disruption of this ER homeostasis by genetic and environmental stimuli leads to an accumulation of misfolded and unfolded proteins, a condition known as ER stress. Upon ER stress, the unfolded protein response (UPR) is activated. The UPR is a signaling network that aims to alleviate ER stress and restore ER homeostasis promoting cell survival. Hence, the UPR allows β-cells to handle the physiological fluctuations of insulin demand. However upon severe unresolvable ER stress conditions such as during diabetes progression, the UPR switches to pathological outputs leading to β-cell dysfunction and apoptosis. Severe ER stress may also trigger inflammation and accumulating evidence suggests that inflammation also contributes to β-cell failure, but the mechanisms remain elusive. In this dissertation, we demonstrate that thioredoxin interacting protein (TXNIP) mediates ER stress induced β-cell inflammation and apoptosis. During a DNA microarray analysis to identify novel survival and death components of the UPR, we identified TXNIP as an interesting proapoptotic candidate as it has been linked to glucotoxicity in β-cells. During our detailed investigation, we discovered that TXNIP is selectively expressed in β-cells of the pancreas and is strongly induced by ER stress through the IRE1α and PERK-eIF2α arms of the UPR and specifically its transcription is regulated by activating transcription factor 5 (ATF5) and carbohydrate response element binding protein (ChREBP) transcription factors. As TXNIP has been shown to activate the Nod-like receptor protein 3 (NLRP3) inflammasome leading to the production of the inflammatory cytokine interleukin-1β (IL- 1β), we hypothesized that perhaps TXNIP has a role in IL-1β production under ER stress. We show that ER stress can induce IL-1β production and that IL-1β is capable of binding to IL-1 type 1 receptor (IL-1R1) on the surface of β-cells stimulating its own expression. More importantly, we demonstrate that TXNIP does indeed play a role in ER stress mediated IL-1β production through the NLRP3 inflammasome. Furthermore, we also confirmed that TXNIP is a mediator of β-cell apoptosis under ER stress partially through IL-1β signaling. Collectively, we provide significant novel findings that TXNIP is a component of the UPR, mediates IL-1β production and autostimulation, and induces cell death under ER stress in β-cells. It is becoming clear that TXNIP has a role in the pathogenesis of diabetes and is a link between ER stress, oxidative stress and inflammation. Understanding the molecular mechanisms involved in TXNIP expression, activity, and function as we do here will shed light on potential therapeutic strategies to tackle diabetes. Carrier Proteins Insulin-Secreting Cells Endoplasmic Reticulum Stress Apoptosis Inflammation Diabetes Mellitus Amino Acids, Peptides, and Proteins Cells Endocrine System Diseases Genetics and Genomics Nutritional and Metabolic Diseases
57	Contribution of WFS1 to Pancreatic Beta Cell Survival and Adaptive Alterations in WFS1 Deficiency: A Dissertation O'Sullivan-Murphy, Bryan M. 20 April 2012 (has links) Diabetes mellitus comprises a cohort of genetic and metabolic diseases which are characterized by the hallmark symptom of hyperglycemia. Diabetic subtypes are based on their pathogenetic origins: the most prevalent subtypes are the autoimmune-mediated type 1 diabetes mellitus (T1DM) and the metabolic disease of type 2 diabetes mellitus (T2DM). Genetic factors are major contributory aspects to diabetes development, particularly in T2DM where there is close to 80% concordance rates between monozygotic twins. However, the functional state of the pancreatic β cell is of paramount importance to the development of diabetes. Perturbations that lead to β cell dysfunction impair insulin production and secretion and precede diabetes onset. The endoplasmic reticulum (ER) is a subcellular organelle network of tubes and cisternae with multifaceted roles in cellular metabolism. Alterations to ER function such as those begotten by the accumulation of misfolded and unfolded ER client proteins upset the ER homeostatic balance, leading to a condition termed ER stress. Subsequent sensing of ER stress by three ER transmembrane proteins, initiates an adaptive reaction to alleviate ER stress: this is known as the unfolded protein response (UPR). Divergent cascades of the UPR attempt to mitigate ER stress and restore ER homeostasis: Failing that, the UPR initiates pro-apoptotic pathways. The demand of insulin production on the β cell necessitates the presence of a highly functional ER. However, the consequence of dependence on the ER for insulin synthesis and secretion portends disaster for the functional state of the β cell. Disturbances to the ER that elicit ER stress and UPR activation causes β cell dysfunction and may lead to apoptosis. There are numerous well-characterized models of ER stress-mediated diabetes, including genetic mutations in UPR transducers and insulin. Recently, polymorphisms in Wolfram syndrome 1 (WFS1), an ER transmembrane protein involved in the UPR, were suggested to contribute to T2DM risk. In this thesis, one of the highlighted WFS1 polymorphism, H611R, was examined to identify its contribution to β cell function and viability, and hence, diabetes risk. It was revealed that augmentation of WFS1 expression increased insulin secretion and cellular content. In addition, WFS1 protected β cells against ER stress-mediated dysfunction, with a more pronounced effect in the WFS1-R611 protective allele. Subsequent gene expression analysis identified netrin-1 as a WFS1-induced survival factor. As a contributory factor to diabetes progression, ER stress and UPR are potential drug and biomarker targets. In this dissertation, a novel UPR-regulating microRNA (miRNA) family was uncovered in ER stressed, WFS1-deficient islets. These miRNAs, the miR-29 family, are induced in WFS1 -/- islets as a possible adaptive alteration to chronic ER stress conditions, and indirectly decreases the expression of UPR transducers, while directly targeting downstream ER stress-related pro-apoptotic factors. Collectively, this work extends the function of WFS1 as a protective factor in the pancreatic β cell through the induction of netrin-1 signaling. Additionally, it further strengthens the role of miRNA as regulatory members of the UPR which contribute to cell survival. Diabetes Mellitus Membrane Proteins Insulin-Secreting Cells Endoplasmic Reticulum Amino Acids, Peptides, and Proteins Cell and Developmental Biology Cells Cellular and Molecular Physiology Endocrine System Diseases Immune System Diseases Nutritional and Metabolic Diseases
58	Papel dos receptores inatos TLR na formação de memória humoral e linfócitos B de longa vida: ação das proteases natterinas, toxinas majoritárias do veneno de Thalassophryne nattereri. / Role of innate TLR receptors in formation of humoral memory and long-life lymphocytes B: action of natterins proteases, majority toxins of Thalassophryne nattereri venom. Komegae, Evilin Naname 05 July 2010 (has links) A contribuição de células B para a memória imunológica se dá por duas distintas populações: células B de memória e células produtoras de anticorpos de longa vida (ASC). A inter-relação entre estas células bem como os mecanismos envolvidos para a manutenção destas tem sido pouco entendida. O veneno de Thalassophryne nattereri tem se mostrado capaz de induzir uma intensa resposta imune de memória. Nós avaliamos o efeito das Natterinas, que são as toxinas majoritárias e inéditas, na indução e manutenção da resposta imune de memória de células B. Este estudo, além de permitir um maior esclarecimento da resposta humoral de memória induzida pelo veneno do peixe T. nattereri, permitiu o estudo da complexa organização do compartimento de células B de memória e ASCs. Também evidenciamos a importância da atividade proteásica para a manutenção da cronicidade de resposta de células B no peritônio, no baço e na medula, como verificamos que a ativação de receptores inatos como osTLRs é decisiva para a geração e manutenção de ASCs B220pos/neg em resposta às Natterinas, dependentes das vias de sinalização MyD88 ou TRIF. Estas sinalizações controlam a magnitude, a qualidade e a longa duração da resposta humoral de memória. / The contribution of B cells for the immunological memory feels for two different populations: memory B cells and long-lived antibodies secreting cells (ASC). The interrelation among these cells as well as the mechanisms involved for the maintenance of these it has been little understood. The venom of Thalassophryne nattereri possesses the ability to induce an intense memory immune response. We evaluated the effect of Natterins that are majority toxins in the venom, in the induction and maintenance of the immune memory response of cells B. The study, besides allowing a larger explanation of the humoral memory response induced by the venom of the fish, it allowed the understanding of the complex organization of the memory B cells compartment, mainly of the subtype of long-lived cells (ASC). Also, we showed the importance of the protease activity of Natterins in the maintenance of the chronic B cell responses in the three analyzed compartments. We verify that the activation of Toll like receptors is decisive for the generation and maintenance of ASCs B220pos/neg in response to Natterins, dependent on the MyD88 or TRIF signaling that control the quality and the duration of the humoral memory response. MyD88 signaling Toll like receptors B lymphocytes B1 cells Células B1 Fish Linfócitos B Memória (Imunologia) Memory (Immunology) Peixes Plasmacitose animal Plasmacitose animal Plasmócito de vida longa (ASC) Poisons Receptores do tipo Toll Sinalização MyD88 Toxinas em animal Toxins in animal Venenos
59	Papel da via lkaros-FGFR4 na evolução pós-cirúrgica dos pacientes com doença de Cushing / Ikaros-FGFR4 pathway: role in the postoperative outcome of Cushing\'s disease Brito, Luciana Pinto 12 April 2010 (has links) Introdução: Os mecanismos envolvidos na patogênese molecular dos tumores hipofisários corticotróficos são complexos, heterogêneos e permanecem na maioria dos casos desconhecidos. Alterações da expressão de componentes da via Ikaros (Ik), tais como do receptor 4 dos fatores de crescimento de fibroblastos (FGFR4) têm sido detectadas em tumores hipofisários, inclusive nos corticotropinomas. O desbalanço entre as isoformas longas e curtas do Ikaros resulta em um início de transcrição alternativa do FGFR4, codificando uma isoforma truncada do gene (pdt- FGFR4) que foi associada a tumores hipofisários maiores e mais invasivos. A isoforma curta Ik6 promove a expressão do fator anti-apoptótico Bcl-XL in vitro, um efeito independente da interação com as isoformas longas. Além disso, um polimorfismo do FGFR4, com substituição da glicina por arginina no códon 388 (G388R), tem sido associado à evolução desfavorável em vários tipos tumorais humanos. Objetivos: Analisar a expressão do Bcl-XL, das isoformas do Ikaros (Ik1+Ik2/Ik total) e do FGFR4 em corticotropinomas humanos. Avaliar a freqüência dos genótipos do códon 388 do FGFR4 nos pacientes com doença de Cushing e sua associação com a evolução pósoperatória após a primeira cirurgia transesfenoidal. Métodos: Noventa e sete pacientes com diagnóstico de doença de Cushing foram estudados. Os dados clínicos, hormonais e histopatológicos foram avaliados retrospectivamente. O estudo da expressão do Bcl-XL, do Ikaros, e do FGFR4 foi realizado por PCR em tempo real em 20 amostras de corticotropinomas, sendo dois tumores correspondentes à síndrome de Nelson. A determinação dos genótipos no códon 388 do FGFR4 foi realizada nos 97 pacientes e em 103 indivíduos controles, por PCR de fragmento do exon 9 do gene FGFR4 seguida de digestão com a enzima de restrição BstNI. A evolução pós-operatória (remissão/recidiva) da doença de Cushing foi avaliada em 76 pacientes. Foram considerados em remissão aqueles pacientes com níveis normais de cortisol urinário durante todo o primeiro ano após a cirurgia, na ausência de reposição hormonal, bem como os que necessitaram de reposição com glicocorticóide no mesmo período. Resultados: Dos 76 pacientes submetidos à primeira cirurgia transesfenoidal, a remissão pós-operatória ocorreu em 68,4% dos pacientes. Treze pacientes (25%) evoluíram com recidiva da doença de Cushing após remissão inicial. A expressão do Bcl-XL foi semelhante à hipófise normal na maioria das amostras tumorais [mediana (mín-máx): 1,36 (0,6 - 2,70)]. Aumento da expressão das isoformas longas do Ikaros foi detectado em 40% dos tumores, enquanto as isoformas curtas corresponderam a mais de 50% da expressão do Ikaros em apenas 3 casos, não havendo associação da expressão do Ikaros com qualquer das variáveis analisadas. O aumento da expressão do FGFR4 foi detectado em 8/18 (44,4%) dos corticotropinomas com doença de Cushing, havendo associação entre a hiperexpressão do FGFR4 e a menor freqüência de remissão pós-operatória da doença de Cushing (p = 0,009). A distribuição genotípica do polimorfismo G388R foi semelhante entre pacientes e controles. O genótipo glicina em homozigose (Gly/Gly) não foi associado à menor frequência de remissão pós-operatória da doença, no entanto, uma freqüência maior de recidiva pós-operatória foi encontrada no grupo de pacientes Gly/Gly (p = 0,019). O genótipo Gly/Gly foi ainda associado à redução da sobrevida livre de doença (hazard ratio [HR], 6,91; Intervalo de Confiança (IC) de 95%, 1,14 a 11,26; p = 0,028). Outras variáveis que se associaram significativamente com maior freqüência de recidiva foram: tamanho e grau de invasão tumoral de acordo com a classificação de Hardy modificada (p = 0,017), o sexo masculino (p = 0,033), a não confirmação Imuno-histológica do tumor produtor de ACTH (p = 0,026) e os valores de cortisol > 2 ?g/dL no pós-operatório precoce (p = 0,01). Conclusões: A expressão normal detectada do Bcl-XL e das isoformas curtas do Ikaros, na maioria das amostras tumorais, sugere a não participação destes fatores na patogênese dos tumores corticotróficos. O aumento da expressão do FGFR4 e o genótipo glicina em homozigose foram associados, respectivamente, à menor freqüência de remissão e maior recidiva pós-operatória da doença de Cushing. Estes resultados sugerem que o FGFR4 pode ter um papel na progressão dos tumores corticotróficos favorecendo a persistência e/ou recidiva da doença de Cushing. / Introduction: The mechanisms involved in the molecular pathogenesis of corticotroph pituitary tumors are complex, heterogeneous and in most cases remain unknown. Changes in the expression of components of Ikaros (Ik) pathway, such as receptor 4 of fibroblast growth factor (FGFR4), have been detected in pituitary tumors including corticotropinomas. Imbalance between long and short Ik isoforms results in alternative transcription initiation of FGFR4 and encodes a truncated isoform of the gene (pdt-FGFR4) which was associated with larger and more invasive pituitary tumors. The Ik6 short isoform promotes Bcl-XL expression in vitro, an effect independent of the interaction with the long isoforms. In addition, a polymorphism of FGFR4 gene, the substitution of glycine by arginine at codon 388 (G388R), has been associated with adverse outcome in several human tumor types. Objectives: To analyze the expression of Bcl-XL, Ikaros isoforms (Ik1 + Ik2/Ikaros total), and FGFR4 in human corticotropinomas. To determine the frequency of each genotype at codon 388 of FGFR4 in patients with Cushing\'s disease and its association with the postoperative outcome after the first transsphenoidal surgery. Methods: Ninety-seven patients with Cushing\'s disease were evaluated. Clinical, hormonal and histopathological findings were assessed retrospectively. The expression of Bcl-XL, Ikaros and FGFR4 were evaluated by real-time PCR in 20 samples of corticotropinomas, including two samples of Nelson\'s syndrome. The FGFR4 genotype was determined in the 97 patients and 103 control subjects by PCR fragment of exon 9 of the FGFR4 gene, followed by digestion with the BstNI restriction enzyme. The postoperative outcome (remission/relapse) of Cushing\'s disease was assessed in 76 patients. The patients with normal urinary cortisol levels during the first year after surgery, in the absence of hormone replacement therapy, and those who required glucocorticoid replacement within the same period were considered in remission. Results: Of the 76 patients who underwent the first transsphenoidal surgery, remission was achieved in 68.4% of patients. Thirteen patients (25%) developed recurrence of Cushing\'s disease after initial remission. The expression of Bcl-XL in the majority of tumor samples was similar to normal pituitary [median (min-max): 1.36 (0.6 - 2.70)]. Overexpression of long isoforms of Ik was detected in 40% of tumors, while the short isoforms represented more than 50% of the expression in only 3 samples. Ik expression was not associated with any of the variables analysed. FGFR4 transcripts were overexpressed in 8/18 (44.4%) of corticotropinomas with Cushing\'s disease. There was an association between the overexpression of FGFR4 and lower postoperative remission rate (p = 0.009). The FGFR4 genotype distribution at codon 388 was similar between control individuals and patients. The glycine homozygous genotype (Gly/Gly) was not associated with lower remission rate. However, a higher frequency of postoperative recurrence was found in the Gly/Gly group (p = 0.019). The Gly/Gly genotype was also associated with reduced disease-free survival (hazard ratio [HR] 6.91, confidence interval (CI) 95%, 1.14 to 11.26; p = 0.028). Other variables that were significantly associated with higher frequency of recurrence were: size and tumor invasion according to modified Hardy classification (p = 0.017), male gender (p = 0.033), non-immuno-histological confirmation of ACTH secreting tumor (p = 0.026) and cortisol levels > 2 ?g/dL in the early postoperative period (p = 0.01). Conclusions: The normal expression of Bcl-XL and short isoforms of Ik in most samples suggest that these factors are not involved in the pathogenesis of corticotroph tumors. Overexpression of FGFR4 and the glycine homozygous genotype were associated with lower frequency of remission and higher postoperative recurrence of Cushing\'s disease, respectively. These results suggest that FGFR4 may play a role in progression of corticotroph tumors favoring the persistence and/or recurrence of Cushing\'s disease. Expressão gênica/genética Fatores de transcrição/fisiologia Gene expression/genetics Polimorfismo genético/genética Polymorphism/genetics Recidiva/prevenção & controle Recurrence/prevention & control Transcription factors/physiology
60	Role of WFS1 in Regulating Endoplasmic Reticulum Stress Signaling: A Dissertation Fonseca, Sonya G. 24 February 2009 (has links) The endoplasmic reticulum (ER) is a multi-functional cellular compartment that functions in protein folding, lipid biosynthesis, and calcium homeostasis. Perturbations to ER function lead to the dysregulation of ER homeostasis, causing the accumulation of unfolded and misfolded proteins in the cell. This is a state of ER stress. ER stress elicits a cytoprotective, adaptive signaling cascade to mitigate stress, the Unfolded Protein Response (UPR). As long as the UPR can moderate stress, cells can produce the proper amount of proteins and maintain a state of homeostasis. If the UPR, however, is dysfunctional and fails to achieve this, cells will undergo apoptosis. Diabetes mellitus is a group of metabolic disorders characterized by persistent high blood glucose levels. The pathogenesis of this disease involves pancreatic β-cell dysfunction: an abnormality in the primary function of the β-cell, insulin production and secretion. Activation of the UPR is critical to pancreatic β-cell survival, where a disruption in ER stress signaling can lead to cell death and consequently diabetes. There are several models of ER stress leading to diabetes. Wolcott-Rallison syndrome, for example, occurs when there is a mutation in the gene encoding one of the master regulators of the UPR, PKR-like ER kinase (PERK). In this dissertation, we show that Wolfram Syndrome 1 (WFS1), an ER transmembrane protein, is a component of the UPR and is a downstream target of two of the master regulators of the UPR, Inositol Requiring 1 (IRE1) and PERK. WFS1 mutations lead to Wolfram syndrome, a non-autoimmune form of type 1 diabetes accompanied by optical atrophy and other neurological disorders. It has been shown that patients develop diabetes due to the selective loss of their pancreatic β-cells. Here we define the underlying molecular mechanism of β-cell loss in Wolfram syndrome, and link this cell loss to ER stress and a dysfunction in a component of the UPR, WFS1. We show that WFS1 expression is localized to the β-cell of the pancreas, it is upregulated during insulin secretion and ER stress, and its inactivation leads to chronic ER stress and apoptosis. This dissertation also reveals the previously unknown function of WFS1 in the UPR. Positive regulation of the UPR has been extensively studied, however, the precise mechanisms of negative regulation of this signaling pathway have not. Here we report that WFS1 regulates a key transcription factor of the UPR, activating transcription factor 6 (ATF6), through the ubiquitin-proteasome pathway. WFS1 expression decreases expression levels of ATF6 target genes and represses ATF6-mediated activation of the ER stress response (ERSE) promoter. WFS1 recruits and stabilizes an E3 ubiquitin ligase, HMG-CoA reductase degradation protein 1 (HRD1), on the ER membrane. The WFS1-HRD1 complex recruits ATF6 to the proteasome and enhances its ubiquitination and proteasome-mediated degradation, leading to suppression of the UPR under non-stress conditions. In response to ER stress, ATF6 is released from WFS1 and activates the UPR to mitigate ER stress. This body of work reveals a novel role for WFS1 in the UPR, and a novel mechanism for regulating ER stress signaling. These findings also indicate that hyperactivation of the UPR can lead to cellular dysfunction and death. This supports the notion that tight regulation of ER stress signaling is crucial to cell survival. This unanticipated role of WFS1 for a feedback loop of the UPR is relevant to diseases caused by chronic hyperactivation of ER stress signaling network such as pancreatic β-cell death in diabetes and neurodegeneration. Wolfram Syndrome Endoplasmic Reticulum Insulin-Secreting Cells Membrane Proteins Pancreas Signal Transduction Stress Physiological Amino Acids, Peptides, and Proteins Cells Digestive System Endocrine System Diseases Eye Diseases Male Urogenital Diseases Nervous System Diseases Nutritional and Metabolic Diseases Otorhinolaryngologic Diseases

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