Global ETD Search

61	Characterization of virus-host interactions using cellular thermal shift assays (CETSA) Lissner, Robin January 2021 (has links) No description available. CETSA protein interactions stress granules SARS-CoV-2 Semliki Forest virus insulin receptor substrate 1 Staufen 1 Biochemistry and Molecular Biology Biokemi och molekylärbiologi
62	Insulin Resistance and Muscle Insulin Receptor Substrate-1 Serine Hyperphosphorylation Stuart, Charles A., Howell, Mary E. A., Cartwright, Brian M., McCurry, Melanie P., Lee, Michelle L., Ramsey, Michael W., Stone, Michael H. 01 December 2014 (has links) Insulin resistance in metabolic syndrome subjects is profound in spite of muscle insulin receptor and insulin-responsive glucose transporter (GLUT4) expression being nearly normal. Insulin receptor tyrosine kinase phosphorylation of insulin receptor substrate-1 (IRS-1) at Tyr896 is a necessary step in insulin stimulation of translocation of GLUT4 to the cell surface. Serine phosphorylation of IRS-1 by some kinases diminishes insulin action in mice. We evaluated the phosphorylation status of muscle IRS-1 in 33 subjects with the metabolic syndrome and seventeen lean controls. Each underwent euglycemic insulin clamps and a thigh muscle biopsy before and after 8 weeks of either strength or endurance training. Muscle IRS-1 phosphorylation at six sites was quantified by immunoblots. Metabolic syndrome muscle IRS-1 had excess phosphorylation at Ser337 and Ser636 but not at Ser307, Ser789, or Ser1101. Ser337 is a target for phosphorylation by glycogen synthase kinase 3 (GSK3) and Ser636 is phosphorylated by c-Jun N-terminal kinase 1 (JNK1). Exercise training without weight loss did not change the IRS-1 serine phosphorylation. These data suggest that baseline hyperphosphorylation of at least two key serines within muscle IRS-1 diminishes the transmission of the insulin signal and thereby decreases the insulin-stimulated translocation of GLUT4. Excess fasting phosphorylation of muscle IRS-1 at Ser636 may be a major cause of the insulin resistance seen in obesity and might prevent improvement in insulin responsiveness when exercise training is not accompanied by weight loss. insulin resistance Insulin receptor substrate-1 metabolic syndrome muscle Internal Medicine Exercise Physiology Sports Medicine Sports Sciences
63	The effect of α-tocopherol on the membrane dipole potential Le Nen Davey, Sterenn January 2011 (has links) α-Tocopherol has a well known antioxidant action but is also considered likely to exert significant non-antioxidant effects in cell membranes. Due to its lipophilic nature α-tocopherol inserts into biological membranes where it influences the organisation of the component lipids and may therefore influence biophysical parameters including the membrane dipole potential. The dipole potential has been demonstrated to modulate the function of several membrane associated proteins and perturbation of this physical parameter by α-tocopherol may prove to be a significant non-antioxidant mechanism underlying several of its cellular effects. This study investigates the influence of α-tocopherol, and the non-antioxidant structural analogue α-tocopherol succinate, on the membrane dipole potential employing fluorescence spectroscopy techniques with the dipole potential sensitive probe Di-8-ANEPPS. Similar techniques are utilised with the surface potential sensitive probe FPE to investigate the interaction of the charged α-tocopherol succinate molecule with membranes. α-Tocopherol and α-tocopherol succinate are shown to decrease the dipole potential of egg-phosphatidylcholine vesicles and Jurkat T-lymphocyte cell membranes. This effect is placed in the context of the significant influence of membrane cholesterol oxidation on the dipole potential. 7-ketocholesterol, an oxidised form of cholesterol, significantly influences several cellular processes and is thought to mediate these effects, in part, through its physical effects on the cell membrane. These include altering the composition, and therefore biophysical properties, of rafts; structures which are considered to support the function of a host of membrane proteins. This study attempts to correlate the effect of 7-ketocholesterol on the dipole potential of microdomains with the influence of the oxysterol on the function of two microdomains associated receptors: P-glycoprotein and the insulin receptor, assessed by determining the extent of ligand binding using flow fluorocytometry. α-Tocopherol has been suggested to inhibit the raft-mediated effects of 7-ketocholesterol and the influence of this molecule on the effect of 7-ketocholesterol on the dipole potential are investigated as a potential mechanism for this inhibition. It is hypothesized that α-tocopherols may protect against the deleterious effects of cholesterol oxidation in cell membranes by excluding 7-ketocholesterol from specific microdomains, of which rafts are a subset, acting to preserve their dipole potential and maintain the function of the proteins they support. However, where significant cholesterol oxidation has previously occured the concurrent changes in the microdomain landscape of the membrane is suggested to prevent α-tocopherol succinate from eliciting this protective effect. 572
64	L’implication de SHP-1 en condition élevée de glucose inhibe la signalisation de l’insuline et du PDGF-BB dans les cellules musculaires lisses vasculaires hypoxiques / SHP-1 implication in high glucose concentration inhibits insulin and PDGF-BB signaling in hypoxic vascular smooth muscle cells Paré, Martin January 2016 (has links) Résumé : Bien que l’hypoxie soit un puissant inducteur de l’angiogenèse, l’activation des facteurs de croissance est perturbée en hyperglycémie au niveau du pied et du cœur. Cette perturbation entraîne la perte de prolifération et de migration chez les cellules endothéliales, musculaires lisses vasculaires et péricytes empêchant la formation de nouveaux vaisseaux qui mènera à l’amputation des membres inférieurs chez les patients diabétiques. Une étude a démontré qu’une augmentation de la protéine tyrosine phosphatase Src homology-2 domain-containing phosphatase-1 (SHP-1) en condition hyperglycémique chez les péricytes entraînait l’inhibition de la signalisation du PDGF-BB, ce qui résultait en le développement d’une rétinopathie diabétique. Nous avons alors soulevé l’hypothèse que l’expression de SHP-1 dans les cellules musculaires lisses vasculaires affecte la prolifération et la migration cellulaire par l’inhibition de la signalisation de l’insuline et du PDGF-BB en condition diabétique. Nos expérimentations ont été effectuées principalement à l’aide d’une culture primaire de cellules musculaires lisses primaires provenant d’aortes bovines. Comparativement aux concentrations normales de glucose (NG : 5,6 mM), l’exposition à des concentrations élevées de glucose (HG : 25 mM) pendant 48 h a résulté en l’inhibition de la prolifération cellulaire par l’insuline et le PDGF-BB autant en normoxie (20% O2) qu’en hypoxie (24 dernières heures à 1% O2). Lors des essais de migration cellulaire, aucun effet de l’insuline n’a été observé alors que la migration par le PDGF-BB fut inhibée en HG autant en normoxie qu’en hypoxie. L’exposition en HG à mener à l’inhibition de la signalisation de la voie PI3K/Akt de l’insuline et du PDGF-BB en hypoxie. Aucune variation de l’expression de SHP-1 n’a été observée mais son activité phosphatase en hypoxie était fortement inhibée en NG contrairement en HG où on observait une augmentation de cette activité. Finalement, une association a été constatée entre SHP-1 et la sous-unité bêta du récepteur au PDGF. En conclusion, nous avons démontré que l’augmentation de l’activité phosphatase de SHP-1 en hypoxie cause l’inhibition des voies de l’insuline et du PDGF-BB réduisant les processus angiogéniques des cellules musculaires lisses vasculaires dans la maladie des artères périphériques. / Abstract : Even though hypoxia is a strong angiogenic inducer, pro-angiogenic factor signaling pathways in peripheral limb and heart are altered by hyperglycemia. This disruption leads to loss of endothelial cells, vascular smooth muscle cells and pericytes proliferation and migration preventing new blood vessel formation which results in amputation of lower extremities in diabetic patients. A study has shown that increase expression of the protein tyrosine phosphatase Src homology-2 domain-containing phosphatase-1 (SHP-1) in hyperglycemic condition in pericytes caused PDGF-BB signaling inhibition resulting in the development of diabetic retinopathy. Our hypothesis is that SHP-1 expression in vascular smooth muscle cells inhibits cell proliferation and migration induced by insulin and PDGF-BB in diabetic condition. Our experiments were performed using primary culture of vascular smooth muscle cells (SMC) from bovine aortas. As compared to normal glucose concentrations (NG:5,6 mM), high glucose level (HG: 25 mM) exposure for 48h inhibited SMC proliferation induced by insulin and PDGF-BB in both normoxia (20% O2) or hypoxia (1% O2 for the last 24h). During cell migration assays, no effect of insulin was observed while PDGF-BB action of SMC migration was reduced in HG in both normal and low oxygen concentrations. HG exposure lead to inhibition of insulin- and PDGF-BB-stimulated PI3K/Akt signaling pathway in hypoxia. No variation of SHP-1 expression was observed in HG condition. However, SHP-1 phosphatase activity was elevated in HG condition during hypoxia as compared to NG concentrations. Finally, our data showed an association between SHP-1 and the PDGF receptor beta subunit. In conclusion, our results demonstrated that the increase of SHP-1 phosphatase activity in hyperglycemia and hypoxia environment caused inhibition of insulin and PDGF-BB signaling pathways reducing angiogenic processes in vascular smooth muscle cells contributing to peripheral arterial disease in diabetes. Signalisation de l'insuline Signalisation du PDGF-BB Protéine tyrosine phosphatase Récepteur à l'insuline Récepteur au PDGF SHP-1 Maladie des artères périphériques Insulin signaling PDGF-BB signaling Protein tyrosine phosphatase Insulin receptor PDGF receptor Peripheral arterial disease
65	Organização das projeções da área tegmental ventral para o complexo VTA-substância negra e para o hipotálamo no rato e estudo da expressão dos substratos do receptor de insulina em neurônios da VTA que se projetam para o estriado / Organization of the ventral tegmental area projections to the VTA-nigral complex and to the hypothalamus in the rat and VTA neurons projecting to the accumbens express insulin receptor substrates. Ferreira, Jozélia Gomes Pacheco 29 January 2010 (has links) Numa primeira etapa, estudamos as conexões da VTA para o complexo VTA-substância negra (SN) utilizando a leucoaglutinina do Phaseolus vulgaris (PHA-L). Estas conexões são substanciais, topograficamente organizadas, com destaque para o pólo caudal da VTA que inerva bilateralmente toda a extensão deste complexo. Numa segunda etapa, estudamos as projeções da VTA para o hipotálamo. A VTA se projeta principalmente para a área pré-óptica lateral e área hipotalâmica lateral, a região subfornical posterior e o núcleo dorsomedial. Foram vistas poucas aposições entre varicosidades PHA-L+ e neurônios imunorreativos para orexina ou para hormônio concentrador de melanina. Por fim, estudamos a colocalização do substrato do receptor de insulina (IRS-1), IRS-1 fosforilado e fosfatidilinositol-3 quinase (PI3K) com tirosina hidroxilase (TH) ou com a subunidade B da toxina colérica (CTb) injetada no estriado. A maioria dos neurônios TH+ da VTA-SN expressa IRS-1; injeções de CTb no estriado resultaram em células duplamente marcadas para CTb/IRS-1, CTb/PI3K e CTb/IRS-1 fosforilado. / In a first step, we studied the connections of the VTA to the complex VTA-substantia nigra (SN) using the Phaseolus vulgaris leucoagglutinin (PHA-L). These connections are substantial, topographically organized, especially the caudal pole of the VTA, which innervates bilaterally throughout the length of this complex. In a second step, we studied the projections of the VTA to the hypothalamus. The VTA projected mainly to the lateral preoptic area, lateral hypothalamic area, posterior subfornical region and dorsomedial nucleus. Were observed few appositions between PHA-L+ varicosities and neurons immunoreactive for orexin or melanin-concentrating hormone. Finally, we studied the co-localization of the insulin receptor substrate-1 (IRS-1), IRS-1-phosphorylated and phosphatidylinositol-3 kinase (PI3K) with tyrosine hydroxylase (TH) or cholera toxin B subunit (CTb) injected into the striatum. Most TH+ neurons of the VTA-SN expressed IRS-1; CTb injections in the striatum resulted in cells double-labeled for CTb/IRS-1, CTb/PI3K and CTb/IRS-1 phosphorylated. Área hipotalâmica lateral Área pré-óptica lateral Dopamina Dopamine Insulin receptor substrates Lateral hypothalamic area Lateral preoptic area Núcleo retrorrubral Retrorubral nucleus Substância negra Substantia nigra Substratos do receptor de insulina
66	Localization of Insulin Receptor Substrate-2 in Breast Cancer: A Dissertation Clark, Jennifer L. 29 March 2012 (has links) The insulin-like growth factor-1 receptor (IGF-1R) and many of its downstream signaling components have long been implicated in tumor progression and resistance to therapy. The insulin receptor substrate-1 (IRS-1) and IRS-2 adaptor proteins are two of the major downstream signaling intermediates of the IGF-1R. Despite their considerable homology, previous work in our lab and others has shown that IRS-1 and IRS-2 play divergent roles in breast cancer cells. Signaling through IRS-1 promotes cell proliferation, whereas signaling through IRS-2 promotes cell motility and invasion, as well as glycolysis. Moreover, using a mouse model of mammary tumorigenesis, our lab demonstrated that IRS-2 acts as a positive regulator of metastasis, while IRS-1 cannot compensate for this function. The focus of my thesis research is to understand how IRS-2, but not IRS-1, promotes breast carcinoma cell invasion and metabolism to support metastasis. In preliminary studies, I have found that IRS-1 and IRS-2 exhibit different expression patterns in both cell lines and human tumors with correlations to patient survival, which provides a potential mechanism for their distinct functions. The localization of IRS-1 and IRS-2 within separate intracellular compartments would determine their access to downstream effectors and substrates, and this would result in unique cellular outcomes. Specifically, I have observed that IRS-2, but not IRS-1, co-localizes with microtubules in breast carcinoma cell lines with implications for signaling through AKT and mTORC2. The goal of this research is to determine how the localization of IRS-2 contributes to its regulation of breast cancer progression and response to therapy and how this information could be used to better predict patient outcomes. Breast Neoplasms Receptors Somatomedin Insulin Receptor Substrate Proteins Protein Transport Neoplasm Invasiveness Amino Acids, Peptides, and Proteins Biological Factors Cancer Biology Neoplasms Skin and Connective Tissue Diseases
67	Glucose and lipid metabolism in insulin resistance : an experimental study in fat cells Burén, Jonas January 2003 (has links) Type 2 diabetes is usually caused by a combination of pancreatic β-cell failure and insulin resistance in target tissues like liver, muscle and fat. Insulin resistance is characterised by an impaired effect of insulin to reduce hepatic glucose production and to promote glucose uptake in peripheral tissues. The focus of this study was to further elucidate cellular mechanisms for insulin resistance that may be of relevance for type 2 diabetes in humans. We used rat and human adipocytes as an established model of insulin’s target cells. Glucocorticoids, e.g. cortisol, can induce insulin resistance in vivo. In the present study, pretreatment of rat adipocytes in vitro for 24 h with the cortisol analogue dexamethasone produced a downregulation of glucose uptake capacity as well as a marked depletion of cellular insulin receptor substrate 1 (IRS-1) and protein kinase B (PKB), two proteins suggested to play a critical role in the intracellular signal transduction pathway of insulin. The amount of phosphorylated PKB in response to acute insulin treatment was decreased in parallel to total PKB content. The basal rate of lipolysis was enhanced, but insulin’s antilipolytic effect was not consistently altered following dexamethasone pretreatment. Alterations in blood glucose as well as insulin levels may be of great importance for cellular as well as whole-body insulin resistance. High glucose (≥15 mM) for 24 h induced a decrease in glucose uptake capacity in rat adipocytes and IRS-1 content was reduced whereas IRS-2 was increased. Long-term pretreatment with a high insulin concentration downregulated insulin binding capacity and when combined with high glucose, it produced a pronounced reduction of cellular IRS-1 and 2 content together with insensitivity to insulin’s effect to activate PKB and a decrease in glucose uptake capacity. A common denominator for a decrease in glucose uptake capacity in our rat adipocyte studies seems to be a decrease in IRS-1 content. Adipocytes from type 2 diabetes patients are insulin-resistant, but in our work the insulin resistance could be reversed by incubation of the cells at a physiological glucose level for 24 h. Insulin resistance in fresh adipocytes from type 2 diabetes patients was associated with in vivo insulin resistance and glycemic level and with adipocyte cell size and waist-hip ratio (WHR). As a potential mechanism for postprandial dyslipidemia in type 2 diabetes, we examined the nutritional regulation of subcutaneous adipose tissue lipoprotein lipase (LPL) activity. It was upregulated by ~40-50 % after a standardised lipid-enriched meal and this was very similar in type 2 diabetes patients and control subjects, suggesting that the postprandial hypertriglyceridemia found in type 2 diabetes is not explained by an altered nutritional regulation of LPL in subcutaneous fat. In conclusion, the present work provides evidence for novel interactions between glucocorticoids and insulin in the regulation of glucose metabolism that may potentially contribute to the development of insulin resistance. High levels of glucose and insulin produce perturbations in the insulin signalling pathway that may be of relevance for human type 2 diabetes. Cellular insulin resistance may be secondary to the diabetic state in vivo, e.g. via glucotoxicity. This is supported by our finding that insulin resistance in adipocytes from type 2 diabetes patients can be reversed after incubation at a physiological glucose level. Key words: adipocyte, insulin resistance, type 2 diabetes, insulin signalling, glucose uptake, insulin, glucose, dexamethasone, insulin receptor substrate, protein kinase B, GLUT4, lipoprotein lipase. Public health adipocyte insulin resistance type 2 diabetes insulin signalling glucose uptake insulin glucose dexamethasone insulin receptor substrate protein kinase B GLUT4 lipoprotein lipase Folkhälsomedicin Public health medicine research areas Folkhälsomedicinska forskningsområden
68	Associação do POMC, NPY e IRS2 hipotalâmicos com padrões de comportamento alimentar em ratos wistar normais e sobrepeso / Association of hypotalamic POMC, NPY and IRS2 with feeding behavior in norma and overweight Wistar rats Mario José dos Santos Pereira 25 May 2009 (has links) O comportamento alimentar de uma espécie é determinado por um conjunto de características filogenéticas, ontogenéticas, e epigenéticas, e regulado por fatores internos e externos ao organismo. Os fenômenos naturais que regem a vida no nosso planeta são periódicos em sua maioria, e a oferta de alimentos não é exceção. Cada safra é seguida de uma entressafra, e este ritmo sincroniza diversos outros ritmos, exógenos e endógenos, capazes de determinar a sobrevivência de espécies. Uma das estratégias adaptativas mais primitivas e bem sucedidas na dinâmica oscilatória da natureza é o acúmulo de reservas. Nossa espécie, nos últimos 50 anos, vive uma situação de grande oferta de alimentos, período este extremamente pequeno, se visto sob a ordem de grandeza da evolução humana. Este fenômeno tem sido determinante na prevalência do depósito de energia e em decorrência, do surgimento da obesidade e suas consequentes patologias. O hipotálamo está intimamente associado à homeostase energética e ao comportamento alimentar. No núcleo arqueado hipotalâmico encontram-se populações neuronais orexigênicas e anorexigênicas, dentre as quais, as que expressam os neuroreceptores POMC, NPY e o substrato de receptor de insulina IRS2. A modificação da expressão destas proteínas tem sido associada à alterações do comportamento alimentar, bem como à impressão e programação metabólica, capazes de induzir obesidade em ratos adultos. A correlação desta circuitaria neuronal com o comportamento alimentar, porém, ainda não está suficientemente compreendida. A detecção do estado de fome-saciedade nos ratos, fundamental no estudo da neurofisiologia relacionada ao comportamento alimentar, vem sendo obtida via de regra, por meio de procedimentos complexos de observação comportamental. O presente estudo contribui para o conhecimento de padrões de alimentação determinados por condições nutricionais, e sua relação com a expressão neurofisiológica hipotalâmica dos neurônios POMC, NPY e IRS2. Utilizando o modelo de programação metabólica de Plagemann (1999) obtivemos animais com 25% de sobrepeso em relação aos animais controle, hiperfágicos, e com padrões de tamanho e ritmo circadiano de refeição, distintos. Apesar dos níveis hormonais elevados de leptina (>100%, p<0,001) e insulina (>90%, p<0,05) em relação ao grupo controle, estes animais apresentaram baixa expressão no estado de fome, e alta expressão, na saciedade, de NPY hipotalâmico, sugerindo que o POMC estaria mais comprometido, a longo prazo, com a regulação do ritmo alimentar. A hiperinsulinemia e hiperleptinemia plasmática associada à reduzida expressão de POMC e IRS2 no ARC, corroboraram esta conclusão. Demonstramos também padrões de alimentação distintos. O método de registro da alimentação, baseado no som da roída foi validado como excelente, pelos registros obtidos nos vídeos, e mostrou-se eficiente. Quando os estados de fome-saciedade foram discriminados nos grupos controle e sobrepeso, os resultados da expressão hipotalâmica dos neuroreceptores estudados se mostraram associados aos particulares padrões de alimentação. / The feeding behavior of a specie is determined by a group of phylogenetic, ontogenetic, and epigenetic features, and regulated by internal and external factors to the organism. The natural phenomena that govern life in our planet are mainly periodic, and the food stocks is not an exception. Each harvest is followed by a time between harvests, and this rhythm synchronizes other several exogenous and endogenous rhythms, capable of determining the survival of species. One of the most primitive strategies of adaptative evolution of species, and what usually happens regarding the oscillatory dynamics of nature, is the reserve accumulation. Our species, in the last 50 years, has been living a situation of great food offer, such period is extremely small if analysed under the greatness order of the human evolution. This phenomenon has been decisive in the prevalence of the energy deposit and, in consequence, determining the appearance of obesity and its consequent pathologies. The hypothalamus is intimately associated to the energy homeostasis and the feeding behavior. In the arcuate nucleous are orexigenic and anorexigenic neuronal populations, that express the neuroreceptors POMC, NPY and insulin receptor substratum IRS2. The modification of these proteins expression, has been associated to alterations of the feeding behavior, as well as to the metabolic imprinting and programming, capable to induce obesity in adult rats. The correlation of this neuronal circuits with the alimentary behavior, however, it is not yet sufficiently understood. The detection of the hunger-satiation state in the rat, crucial in the neurophysiology studies related to the alimentary behavior, has been obtained through complex procedures of behavioral observation. The present study contributed to the knowledge of certain feeding patterns for nutritional conditions, and its relationship with the neurophysiological expression of POMC, NPY and IRS2 neurons. Using the metabolic programming model of Plagemann (1999) animals with 25% of overweight in relation to the control animals were obtained, hyperphagics, and with different size patterns and meal circadian rhythm. In spite of the high hormonal levels of leptin (>100%, p < 0,001) and insulin (>90%, p < 0,05) in relation to the control groups, these animals presented low expression in the hunger state, and high expression in the satiation of hypothalamic NPY, suggesting that POMC would be more committed, in the long term, with the regulation of the feeding rhythm. The hyperinsulinemia and plasmatic hyperleptinemia associated to the reduced POMC and IRS2 expression in the ARC, corroborated this conclusion. We also demonstrated different feeding patterns. The feeding registration method, based on the gnaw sound was validated as excellent, when comparedto a gold pattern, the registrations obtained in the videos, and it were considered efficient. When the hunger-satiation states were discriminated in the control and overweight groups, the results of the hypothalamic neuroreceptors expression studied showed association to the feeding patterns. Comportamento alimentar Ritmo circadiano Pró-ópiomelanocortina Receptor de insulina substrato 2 Neuropeptídeo Y Hiperfagia Obesidade Hipotálamo Programação metabólica Feeding behavior pro-ópiomelanocortin Insulin-receptor substratum 2 Neuropeptide Y Hyperphagia Obesity Hypothalamus Metabolic programming Circadian rhythm NEUROFISIOLOGIA
69	Associação do POMC, NPY e IRS2 hipotalâmicos com padrões de comportamento alimentar em ratos wistar normais e sobrepeso / Association of hypotalamic POMC, NPY and IRS2 with feeding behavior in norma and overweight Wistar rats Mario José dos Santos Pereira 25 May 2009 (has links) O comportamento alimentar de uma espécie é determinado por um conjunto de características filogenéticas, ontogenéticas, e epigenéticas, e regulado por fatores internos e externos ao organismo. Os fenômenos naturais que regem a vida no nosso planeta são periódicos em sua maioria, e a oferta de alimentos não é exceção. Cada safra é seguida de uma entressafra, e este ritmo sincroniza diversos outros ritmos, exógenos e endógenos, capazes de determinar a sobrevivência de espécies. Uma das estratégias adaptativas mais primitivas e bem sucedidas na dinâmica oscilatória da natureza é o acúmulo de reservas. Nossa espécie, nos últimos 50 anos, vive uma situação de grande oferta de alimentos, período este extremamente pequeno, se visto sob a ordem de grandeza da evolução humana. Este fenômeno tem sido determinante na prevalência do depósito de energia e em decorrência, do surgimento da obesidade e suas consequentes patologias. O hipotálamo está intimamente associado à homeostase energética e ao comportamento alimentar. No núcleo arqueado hipotalâmico encontram-se populações neuronais orexigênicas e anorexigênicas, dentre as quais, as que expressam os neuroreceptores POMC, NPY e o substrato de receptor de insulina IRS2. A modificação da expressão destas proteínas tem sido associada à alterações do comportamento alimentar, bem como à impressão e programação metabólica, capazes de induzir obesidade em ratos adultos. A correlação desta circuitaria neuronal com o comportamento alimentar, porém, ainda não está suficientemente compreendida. A detecção do estado de fome-saciedade nos ratos, fundamental no estudo da neurofisiologia relacionada ao comportamento alimentar, vem sendo obtida via de regra, por meio de procedimentos complexos de observação comportamental. O presente estudo contribui para o conhecimento de padrões de alimentação determinados por condições nutricionais, e sua relação com a expressão neurofisiológica hipotalâmica dos neurônios POMC, NPY e IRS2. Utilizando o modelo de programação metabólica de Plagemann (1999) obtivemos animais com 25% de sobrepeso em relação aos animais controle, hiperfágicos, e com padrões de tamanho e ritmo circadiano de refeição, distintos. Apesar dos níveis hormonais elevados de leptina (>100%, p<0,001) e insulina (>90%, p<0,05) em relação ao grupo controle, estes animais apresentaram baixa expressão no estado de fome, e alta expressão, na saciedade, de NPY hipotalâmico, sugerindo que o POMC estaria mais comprometido, a longo prazo, com a regulação do ritmo alimentar. A hiperinsulinemia e hiperleptinemia plasmática associada à reduzida expressão de POMC e IRS2 no ARC, corroboraram esta conclusão. Demonstramos também padrões de alimentação distintos. O método de registro da alimentação, baseado no som da roída foi validado como excelente, pelos registros obtidos nos vídeos, e mostrou-se eficiente. Quando os estados de fome-saciedade foram discriminados nos grupos controle e sobrepeso, os resultados da expressão hipotalâmica dos neuroreceptores estudados se mostraram associados aos particulares padrões de alimentação. / The feeding behavior of a specie is determined by a group of phylogenetic, ontogenetic, and epigenetic features, and regulated by internal and external factors to the organism. The natural phenomena that govern life in our planet are mainly periodic, and the food stocks is not an exception. Each harvest is followed by a time between harvests, and this rhythm synchronizes other several exogenous and endogenous rhythms, capable of determining the survival of species. One of the most primitive strategies of adaptative evolution of species, and what usually happens regarding the oscillatory dynamics of nature, is the reserve accumulation. Our species, in the last 50 years, has been living a situation of great food offer, such period is extremely small if analysed under the greatness order of the human evolution. This phenomenon has been decisive in the prevalence of the energy deposit and, in consequence, determining the appearance of obesity and its consequent pathologies. The hypothalamus is intimately associated to the energy homeostasis and the feeding behavior. In the arcuate nucleous are orexigenic and anorexigenic neuronal populations, that express the neuroreceptors POMC, NPY and insulin receptor substratum IRS2. The modification of these proteins expression, has been associated to alterations of the feeding behavior, as well as to the metabolic imprinting and programming, capable to induce obesity in adult rats. The correlation of this neuronal circuits with the alimentary behavior, however, it is not yet sufficiently understood. The detection of the hunger-satiation state in the rat, crucial in the neurophysiology studies related to the alimentary behavior, has been obtained through complex procedures of behavioral observation. The present study contributed to the knowledge of certain feeding patterns for nutritional conditions, and its relationship with the neurophysiological expression of POMC, NPY and IRS2 neurons. Using the metabolic programming model of Plagemann (1999) animals with 25% of overweight in relation to the control animals were obtained, hyperphagics, and with different size patterns and meal circadian rhythm. In spite of the high hormonal levels of leptin (>100%, p < 0,001) and insulin (>90%, p < 0,05) in relation to the control groups, these animals presented low expression in the hunger state, and high expression in the satiation of hypothalamic NPY, suggesting that POMC would be more committed, in the long term, with the regulation of the feeding rhythm. The hyperinsulinemia and plasmatic hyperleptinemia associated to the reduced POMC and IRS2 expression in the ARC, corroborated this conclusion. We also demonstrated different feeding patterns. The feeding registration method, based on the gnaw sound was validated as excellent, when comparedto a gold pattern, the registrations obtained in the videos, and it were considered efficient. When the hunger-satiation states were discriminated in the control and overweight groups, the results of the hypothalamic neuroreceptors expression studied showed association to the feeding patterns. Comportamento alimentar Ritmo circadiano Pró-ópiomelanocortina Receptor de insulina substrato 2 Neuropeptídeo Y Hiperfagia Obesidade Hipotálamo Programação metabólica Feeding behavior pro-ópiomelanocortin Insulin-receptor substratum 2 Neuropeptide Y Hyperphagia Obesity Hypothalamus Metabolic programming Circadian rhythm NEUROFISIOLOGIA
70	Organização das projeções da área tegmental ventral para o complexo VTA-substância negra e para o hipotálamo no rato e estudo da expressão dos substratos do receptor de insulina em neurônios da VTA que se projetam para o estriado / Organization of the ventral tegmental area projections to the VTA-nigral complex and to the hypothalamus in the rat and VTA neurons projecting to the accumbens express insulin receptor substrates. Jozélia Gomes Pacheco Ferreira 29 January 2010 (has links) Numa primeira etapa, estudamos as conexões da VTA para o complexo VTA-substância negra (SN) utilizando a leucoaglutinina do Phaseolus vulgaris (PHA-L). Estas conexões são substanciais, topograficamente organizadas, com destaque para o pólo caudal da VTA que inerva bilateralmente toda a extensão deste complexo. Numa segunda etapa, estudamos as projeções da VTA para o hipotálamo. A VTA se projeta principalmente para a área pré-óptica lateral e área hipotalâmica lateral, a região subfornical posterior e o núcleo dorsomedial. Foram vistas poucas aposições entre varicosidades PHA-L+ e neurônios imunorreativos para orexina ou para hormônio concentrador de melanina. Por fim, estudamos a colocalização do substrato do receptor de insulina (IRS-1), IRS-1 fosforilado e fosfatidilinositol-3 quinase (PI3K) com tirosina hidroxilase (TH) ou com a subunidade B da toxina colérica (CTb) injetada no estriado. A maioria dos neurônios TH+ da VTA-SN expressa IRS-1; injeções de CTb no estriado resultaram em células duplamente marcadas para CTb/IRS-1, CTb/PI3K e CTb/IRS-1 fosforilado. / In a first step, we studied the connections of the VTA to the complex VTA-substantia nigra (SN) using the Phaseolus vulgaris leucoagglutinin (PHA-L). These connections are substantial, topographically organized, especially the caudal pole of the VTA, which innervates bilaterally throughout the length of this complex. In a second step, we studied the projections of the VTA to the hypothalamus. The VTA projected mainly to the lateral preoptic area, lateral hypothalamic area, posterior subfornical region and dorsomedial nucleus. Were observed few appositions between PHA-L+ varicosities and neurons immunoreactive for orexin or melanin-concentrating hormone. Finally, we studied the co-localization of the insulin receptor substrate-1 (IRS-1), IRS-1-phosphorylated and phosphatidylinositol-3 kinase (PI3K) with tyrosine hydroxylase (TH) or cholera toxin B subunit (CTb) injected into the striatum. Most TH+ neurons of the VTA-SN expressed IRS-1; CTb injections in the striatum resulted in cells double-labeled for CTb/IRS-1, CTb/PI3K and CTb/IRS-1 phosphorylated. Área hipotalâmica lateral Área pré-óptica lateral Dopamina Núcleo retrorrubral Substância negra Substratos do receptor de insulina Dopamine Insulin receptor substrates Lateral hypothalamic area Lateral preoptic area Retrorubral nucleus Substantia nigra

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