Global ETD Search

201	Pesquisa de anticorpos contra estruturas citoplasmáticas do neutrófilo (ANCA) e contra o Saccharomyces cerevisiae (ASCA) na doença inflamatória intestinal / Evaluation of Antineutrophil cytoplasmic autoantibodies (ANCA) and Anti-Saccharomyces cerevisiae antibodies (ASCA) in inflammatory bowel disease Schappo, Fernando 14 May 2007 (has links) A determinação dos marcadores sorológicos P-ANCA (anticorpo perinuclear contra estruturas citoplasmáticas do neutrófilo) e ASCA (anticorpo anti-Saccharomyces cerevisiae) auxilia de forma menos invasiva no diagnóstico da doença inflamatória intestinal (DII). O padrão de associação mais relacionado à retocolite ulceratica inespecífica (RCUI) ocorre com ASCA- (negativo) e P-ANCA + (positivo). Na doença de Crohn (DC) ocorre o contrário, ou seja, ASCA+ e P-ANCA-. O P-ANCA é determinado por imunofluorescência indireta usando neutrófilos fixados em etanol, e o ASCA através de ELISA. De forma geral, a prevalência do P-ANCA em pacientes com RCUI tem variado entre 50 e 80% e em pacientes com DC entre 10 e 30%. Controles sadios têm revelado prevalência menor que 4% e controles patológicos em torno de 8%. Alguns trabalhos mostraram ampla variação nos resultados, sugerindo além de variação genéticas, variações metodológicas de acordo com a população estudada. Foram realizadas análises no soro de 200 pacientes para pesquisa de P-ANCA e ASCA, sendo 98 com RCUI e 102 com DC. O grupo controle foi representado por 54 indivíduos sadios. Os pacientes com DII foram oriundos do ambulatório de Gastroenterologia ? Grupo de Intestino do Hospital das Clínicas Faculdade da Faculdade de Medicina da Universidade de São Paulo (HCFMUSP). A prevalência encontrada do P-ANCA na RCUI, DC e grupo controle correspondeu a 61,2%, 16,7% e 5,6% respectivamente, enquanto que a do ASCA para a DC, RCUI e grupo controle correspondeu a 52,9%, 27,6% e 5,6% respectivamente. A sensibilidade e especificidade encontrada com o padrão ASCA+/P-ANCA- para DC foi de 45,1% e 89,% respectivamente, enquanto que para o padrão P-ANCA+/ASCA- para RCUI foi de 43,9% e 91,2% respectivamente. No que diz respeito às características clínicas e demográficas, nenhuma associação com a presença dos anticorpos foi estabelecida no presente estudo, exceto quando avaliado o uso de drogas imunossupressoras e infliximab em pacientes com DC e ASCA+ , a qual se mostrou aumentada (p=0,008). Assim sendo, a determinação dos anticorpos P-ANCA e ASCA na DII possui baixa sensibilidade, mas níveis elevados de especificidade como demonstrado em outros estudos publicados. A correlação dos anticorpos P-ANCA e ASCA com características clínicas ainda permanece controversa. / The determination of serologic markers P-ANCA (perinuclear antineutrophil cytoplasmic autoantibodies) and ASCA (anti-Saccharomyces cerevisiae mannan antibodies) assists as non-invasive way on the inflammatory bowel disease (IBD) diagnosis. The most associated pattern to ulcerative colitis (UC) occurs with ASCA- (negative) and P-ANCA + (positive). In the Crohns disease (CD) is the opposite, that is, ASCA+ and P-ANCA-. Determination of P-ANCA is performed by an indirect immunofluorescence assay, using ethanol-fixed neutrophil slides and ASCA is measured by ELISA. Usually, the prevalence of P-ANCA in patients with UC has varied between 50 and 80% and in patients with CD between 10 and 30%. Healthy controls have disclosed lesser prevalence than 4% and pathological controls around 8%. Some studies had shown a wide variation in the results, suggesting both genetic and methodologic variations, according to the studied population. Serum samples were obtained from 200 patients for analysis of P-ANCA and ASCA, being 98 with UC and 102 with CD. The control group was represented by 54 healthy individuals. Patients with IBD were selected from the Department of Gastroenterology - Intestine Group of the Hospital das Clínicas of the University of São Paulo (HCFMUSP). P-ANCA prevalence found in UC, CD and control group were 61,2%, 16,7% e 5,6%, respectively, but ASCA prevalence in UC, CD and control group were 52,9%, 27,6% e 5,6%, respectively. Sensitivity and specificity achieved using ASCA+/P-ANCA- pattern for CD were 45,1% e 89,%, respectively, but P-ANCA+/ASCA- pattern for UC were 43,9% e 91,2% respectively. In this study, the current data did not support a relationship between the serological markers and clinical and demographic characteristics, except when evaluated the use of immunosuppresive drugs and infliximab in patients with CD and ASCA+, which were increased (p=0,008). Thus, the determination of antibodies P-ANCA and ASCA in the IBD gets low sensitivity, but high levels of especificity as demonstrated in other published reports. The correlation of antibodies P-ANCA and ASCA with clinical characteristics appears to be limited. Anti-neutrophil cytoplasmic autoantibody Chron disease Colite ulcerativa Doença de Crohn Marcadores biológicos Saccharomyces cerevisiae Saccharomyces cerevisiae Serological markers Ulcerative colitis
202	Efeitos vasculares induzidos pelo peptídeo natriurético tipo C (CNP) em aorta de ratos normotensos e hipertensos renais / Vascular effects induced by C-type natriuretic peptide (CNP) on aorta from normotensive and renovascular hypertensive rats. Laena Pernomian 04 July 2011 (has links) O peptídeo natriurético tipo C (CNP) é descrito como agonista vasodilatador do músculo liso vascular de artérias e veias, podendo ser produzido e liberado do endotélio vascular frente a diversos estímulos. Este promove o relaxamento vascular através da interação com seu receptor associado à enzima guanilil ciclase particulada (GCp) de membrana, levando ao aumento dos níveis de GMPc ou pelo receptor NPR-C associado à inibição de enzima adenilil ciclase e ativação de enzima fosfolipase C e canais para K+, via proteína Gi. Esta vasodilatação é descrita envolver parcialmente a via NO-GCs-GMPc, estando relacionada com a mobilização intracelular de cálcio. O modelo de hipertensão 2R-1C está associada ao consumo de NO, no ambiente celular, via reação com espécies reativas de oxigênio (EROs), especialmente ânion superóxido (O2-), caracterizando um prejuízo na vasodilatação dependente do endotélio. Desta forma, considerando as alterações descritas no modelo de hipertensão renovascular 2R-1C quanto ao estresse oxidativo e a importância do CNP como agonista vasodilatador, a hipótese do presente trabalho foi de que na aorta torácica isolada de ratos hipertensos 2R-1C, o relaxamento vascular induzido pelo CNP estaria prejudicado devido o estresse oxidativo. Neste contexto, o objetivo do presente trabalho foi de elucidar os mecanismos celulares envolvidos nas respostas vasculares induzidas pelo CNP. Células endoteliais isoladas de aorta de ratos 2R-1C apresentaram menor [NO]c comparadas as de 2R, sugerindo disfunção endotelial. A exposição das células endoteliais à agente sequestrador de O2- (Tiron) demonstrou a participação deste ânion em 2R-1C, mas não em 2R. CNP promoveu relaxamento de anéis de aorta de ratos 2R e 2R-1C, o qual foi mais pronunciado em preparações desprovidas de camada endotelial em 2R-1C. Hidroxicobalamina (sequestrador de NO0), mas não L-NAME (inibidor de NOS), causou redução da potência do CNP em 2R-1C. ODQ (inibidor de GCs) reduziu a potência em 2R E+, atenuando isoladamente o efeito máximo e o número de Hill em preparações E- de 2R-1C ao nível controle. Em presença do inibidor seletivo de GK (Rp-8-Br-PET-cGMPS) ocorreu atenuação da potência do CNP em todos os grupos experimentais, porém o efeito máximo do CNP somente foi reduzido daquelas preparações E-. A inibição da SERCA reduziu da potência do CNP em todos os grupos experimentais, porém o efeito máximo em 2R-1C foi reduzido ao nível controle. Sobre pré-contração induzida pela EC50 de solução de cloreto de potássio (KCl) ocorreu atenuação de potência e efeito máximo do CNP em todos os grupos experimentais. Contudo, com a utilização de inibidores seletivos de canais para K+, apenas observou-se a participação de BKCa e SKCa em 2R e 2R-1C e de KV em 2R-1C no relaxamento induzido pelo CNP. A inibição de NAD(P)H-oxidase (Apocinina) foi capaz de normalizar o efeito máximo em preparações E- de 2R-1C. A inibição de junções gap mioendoteliais (ácido 18--glicirretínico) promoveu redução da potência do CNP em 2R E+. Por fim, a inibição não-seletiva de COX (Indometacina) apenas reduziu a potência do CNP em preparações E+ de 2R. A partir da análise do conjunto de dados obtidos em estudos realizados em células endoteliais isoladas e funcionais pode-se concluir a participação do sistema de peptídeos natriuréticos sobre a modulação do tônus vascular em preparações isoladas de ratos 2R e 2R-1C. Assim, o relaxamento vascular induzido pelo CNP não se encontra prejudicado em aorta torácica isolada de 2R-1C. O endotélio vascular modula negativamente o relaxamento induzido pelo CNP em aorta de ratos 2R e 2R-1C. Embora haja disfunção endotelial em 2R-1C, esta não é suficiente para alterar a mobilização de cálcio induzida pelo CNP. O relaxamento induzido pelo peptídeo envolve a participação de metabólitos de NOS e de espécie NO0, assim como as enzimas NAD(P)H oxidase, GCs, GK e SERCA parecem estar relacionadas com o efeito vasodilatador induzido pelo CNP mais pronunciado em 2R-1C. Assim também, a sinalização desencadeada pelo CNP leva à ativação de canais para K+ em ambos os grupos, envolvendo a mediação através de junções gap mioendoteliais em 2R, mas não em 2R-1C. / C-type natriuretic peptide (CNP) acts as a vasodilator agonist that relaxes vascular smooth muscle cells from arteries and veins, and it can be produced and released from the vascular endothelium by several stimuli. This peptide induces vascular relaxation through interaction with its receptor which is associated with particulate guanylyl cylase (pGC), leading to the increase in cGMP levels or it can also can interacts with NPR-C receptor associated with the inhibition of adenylyl cyclase and the activation of phospholipase C and K+ channels, via Gi protein. This vasodilation is related to partially involves NO-sGC-cGMP and intracellular calcium mobilization. 2K-1C hypertension is related to NO consumption, in the cellular environment through reaction with reactive oxygen species (ROS), mainly superoxide anion (O2-), characterizing impaired endothelium-dependent relaxation. So, in view of the changes in renovascular hypertension 2K-1C through oxidative stress and the importance of CNP like a vasodilator agonist, the hypothesis of the present work was on thoracic aorta isolated from renal hypertensive rats (2K-1C) the vascular relaxation induced by CNP would be impaired due to oxidative stress. In this context, the study aimed to demonstrate the cellular mechanisms involved on vascular responses induced by CNP. Endothelial cells isolated from 2K-1C rat aortas showed decreased [NO]c compared to 2K, suggesting endothelial dysfunction. In the presence of O2- scavenger (Tiron) there was the participation of this anion on endothelial cells from 2K-1C, but not on 2K ones. CNP caused relaxation of aortic rings from 2K and 2K-1C rats which was enhanced on denuded rings from 2K-1C. Hydroxicobalamine (NO0 scavenger) but not L-NAME (NOS inhibitor) decreased the potency of CNP on intact aortic rings from 2K-1C. ODQ (sGC inhibitor) decreased potency in intact vascular rings from 2K, just reducing maximum effect and Hill number on denuded aortic rings from 2K-1C to a control level. In the presence of selective GK inhibitor (Rp-8-Br-PET-cGMPS) occurred an attenuation of CNP potency in all experimental groups, but the maximum effect of CNP was reduced only in aortic rings without endothelial layer. SERCA inhibition decreased CNP potency of all experimental groups, but maximum effect was reduced on 2K-1C to control levels. Under pre-contraction elicited by EC50 of potassium chloride (KCl) solution there was a decreased CNP potency and maximum effect in all experimental groups. However, the presence of selective inhibitor of K+ channels showed the contribution of BKCa and SKCa on 2K and 2K-1C and KV on 2K-1C in the CNP induced relaxation. NAD(P)H-oxidase inhibition (Apocinin) was able to normalize maximum effect of CNP on denuded vessels from 2K-1C. Myoendothelial gap junctions inhibition (18--glicirrhetinic acid) reduced CNP potency on intact aortic rings from 2K. Finally, the non-selective COX inhibition (Indometacin) induced a lower CNP potency on intact aortic rings from 2K. The analysis of the data obtained from isolated endothelial cells and functional studies allow us to conclude the participation of natriuretic peptide system in the modulation of vascular tone on aortic rings isolated from 2K and 2K-1C rats. Thus, the vascular relaxation induced by CNP is not impaired on aortic rings isolated from 2K-1C. Vascular endothelium negatively modulates the relaxation induced by CNP on 2K and 2K-1C rat aortas. Although 2K-1C exhibits endothelial dysfunction, it is not sufficient to impair calcium mobilization induced by CNP. CNP induced relaxation involves NOS metabolites and NO0 specie, as well as the activity of NAD(P)H oxidase, sGC, GK and SERCA is related to the enhanced vasodilator effect induced by CNP on 2K-1C. Similarly, CNP pathway leads to K+ channels activation in both experimental groups and the signal mediation through myoendothelial gap junctions on 2K aortas, but not on 2K-1C ones. Cálcio citosólico Estresse oxidativo Guanilil ciclase Óxido nítrico Peptídeo natriurético tipo C C-type natriuretic peptide Cytoplasmic calcium Nitric oxide Oxidative stress Particulate guanyly
203	Interação entre a proteína celular hSlu7 e a proteína NS5 do vírus da febre amarela Gomes, Arieli Fernanda Gavioli 15 December 2011 (has links) Made available in DSpace on 2016-01-26T12:51:42Z (GMT). No. of bitstreams: 1 arielifernandagavioligomes_dissert.pdf: 1557143 bytes, checksum: 898e0714fcf73f6bc8ba53f5719efc71 (MD5) Previous issue date: 2011-12-15 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / Introduction: The Yellow Fever is characterized by severe hepatitis, renal failure, hemorrhage, and rapid terminal events that lead to shock and death. This disease is caused by the infection with the Yellow Fever Virus (YFV), considered the prototype of the Flavivirus genus. Its mechanism of replication is not well known but includes interactions of viral RNA with cellular and viral proteins. The nonstructural protein 5 (NS5) is the largest and most conserved protein of the Flavivirus genus; it encodes RNA-dependent RNA polymerase (RdRp) domains, besides possessing many important functions during viral replication, such as genic regulation of host cells. The protein hSlu7 is a homologous human protein, which was isolated interacting with the U5 that is involved in the second the step of alternative splicing. The hSlu7 is a predominantly nuclear protein and participates at the alternative splicing, influencing the correct choice of the alternative AGs of exon 3' so that the spliceossome is able to bind and start alternative splicing. Objective: To characterize the interaction of the hSlu7 protein with the YFV-NS5 protein and its cellular localization during viral infection. Material and Method: We confirmed the interaction of various NS5 with human proteins by two-hybrid assays. Deletion mutants were constructed and co-transformed with hSlu7 in yeast to determine the minimal domain of NS5 required for interaction. The cellular localization of the hSlu7 fused with GFP during the response of vaccine strain 17D of YFV in cells Vero E6, marked with anti-NS4AB and anti-NS5 for detection of the infection was also tested. Results: hSlu7 interacts with initial and final portions of the RdRp and the cytoplasmic sublocalization of hSlu7 occurs in the cells infected with YFV. Conclusions: Our results suggest that hSlu7 interacts with the YFV by two-hybrid system and the cellular sublocalization occurs due to the presence of viral infection. Further studies using RNA interference should be addressed to confirm the cellular function of hSlu7 , and to evaluate which alterations that infected and uninfected cells will suffer with low levels of hSlu7. / Introdução: A Febre Amarela é uma doença decorrente da infecção pelo Vírus da Febre Amarela (YFV) que é um protótipo do gênero Flavivirus que provoca uma severa hepatite, falência renal, hemorragia, e eventos que rapidamente levam ao choque e morte do indivíduo. Os mecanismos de replicação genômico do YFV não são bem conhecidos. A proteína não estrutural 5 (NS5) é a maior proteína e a mais conservada dos Flavivirus, ela codifica a RNA polimerase dependente de RNA (RdRp). A hSlu7 é uma proteína celular, predominantemente nuclear, e foi isolada interagindo com a U5 no segundo passo do splicing alternativo. A hSlu7 auxilia na correta seleção dos AGs alternativos do exon 3 para a realização da reação de splicing. Objetivo: Caracterizar a interação de hSlu7 com a proteína NS5 de YFV, quanto a sua localização celular durante a infecção. Material e Método: Pelo sistema duplo-híbrido em leveduras utilizando plasmid-linkage avaliamos a interação de hSlu7 com deleções mutantes da RdRp de YFV, e a localização celular de GFP-hSlu7 durante a replicação da cepa vacinal 17D de YFV em cultura de células Vero E6, marcadas com anticorpos NS4AB e NS5 para detecção da infecção. Resultados: A hSlu7 interage com as porções inicial e final da RdRp, e a sublocalização citoplasmática de hSlu7, ocorre nas células infectadas com YFV. Conclusão: Nossos resultados sugerem que a hSlu7 possui uma sublocalização celular durante a replicação do YFV, além de interagir com a RdRp viral. Ainda será necessária a confirmação da função celular de hSlu7 utilizando RNA de interferência para avaliar quais as alterações que a célula não infectada e infectada sofrerá diante dos níveis baixos de hSlu7. hSlu7 Vírus da Febre Amarela Interação Proteína-proteína NS5 Sistema Duplo-Híbrido hSlu7 Protein-protein interaction Cytoplasmic Sublocalization NS5 Two-hybrid assays CNPQ::CIENCIAS DA SAUDE
204	Isolation and Identification of O-linked-β-N-acetylglucosamine Modified Proteins (O-GlcNAc) in the Developing Xenopus laevis Oocyte Paspuleti, Sreelatha 08 November 2004 (has links) Oocyte development in Xenopus laevis spans six morphologically distinct stages (stage I-VI), and is associated with a decrease in protein O-GlcNAc levels. As a first step in elucidating the role of O-GlcNAc in developing oocytes, initial efforts were focused on isolation and identification of fifteen modified proteins that decrease during oocyte development. Stage I oocytes due to their high amounts of these proteins, were used as starting material for purification. Multiple affinity and specific antibody based purification technique were initially used in an attempt to enrich the O-GlcNAc proteins. Due to the unique properties of the proteins ultimately identified, these techniques were unable to provide sufficient material for sequencing. However, differential centrifugation coupled with 2D-gel electrophoresis was highly successful. The majority of isolated proteins were strongly basic in nature with pIs 8-10. Coomassie stained bands from 2D-analysis were trypsin digested, and peptides were sequenced by mass spectroscopy (Finnigan LCQ). Mass data were interpreted by Bioworks software, and protein sequences were compared to multiple protein databases. Initially, six proteins were identified as Thesaurin a (42Sp50), cytoplasmic mRNA binding protein p54, y-box homolog, Xp 54 (ATP dependent RNA helicase p54), Vg1 RNA binding protein variant A, Zygote arrest 1(Zar1) and Poly (A) binding protein (PABP). Thesaurin a, the main component of 42S particle of previtellogenic oocytes (stages I-III) is involved in tRNA storage and possess low tRNA transfer activity; y-box factor homolog and Xp54 are present in oocyte mRNA storage ribonucleoprotein particles; Vg1 RBP variant A associates mVg1 RNA to microtubules in order to translocate to the vegetal cortex; Zar1 is involved in oocyte-to-embryo transition; and PABP initiates mRNA translation. This study is the first to characterize these oocyte specific proteins as O-GlcNAc modified proteins. Overall, the presence of several O-GlcNAc proteins in oocytes, the reduction in their levels/ O-GlcNAc levels, and the variation in maturation time in the presence of HBP-flux modulators in developing oocyte indicates O-GlcNAc may play important roles in metabolism, cell growth and cell division of X. laevis oocytes. Therefore, identifying the remainder of these proteins and elucidating the O-GlcNAc role in their function is a worthwhile pursuit. Thesaurin a Cytoplasmic mRNA binding protein p54 Vg1 RNA binding protein variant A Zygote arrest 1 Two-dimensional gel electrophoresis American Studies Arts and Humanities
205	Pulsatile insulin release from single islets of Langerhans Westerlund, Johanna January 2000 (has links) <p>Insulin release from single islets of Langerhans is pulsatile. The secretory activities of the islets in the pancreas are coordinated resulting in plasma insulin oscillations. Nutrients amplitude-regulate the insulin pulses without influencing their frequency. Diabetic patients show an abnormal plasma insulin pattern, but the cause of the disturbance remains to be elucidated. Ithe present thesis the influence of the cytoplasmic calcium concentratio([Ca<sup>2+</sup>]<sub>i</sub>) and cell metabolism on pulsatile insulin release was examined in single islets of Langerhans from <i>ob/ob</i>-mice. Glucose stimulation of insulin release involves closure of ATP-sensitive K<sup>+</sup> channels (K<sub>ATP</sub> channels), depolarization, and Ca<sup>2+</sup> influx in β-cells. In the presence of 11 mM glucose, pulsatile insulin secretion occurs in synchrony with oscillations i[Ca<sup>2+</sup>]<sub>i</sub>. When [Ca<sup>2+</sup>]<sub>i</sub> is low and stable, e.g. under basal conditions, low amplitude insulin pulses are still observed. When [Ca<sup>2+</sup>]<sub>i</sub> is elevated and non-oscillating, e.g. when the β-cells are depolarized by potassium, high amplitude insulin pulses are observed. The frequency of the insulin pulses under these conditions is similar to that observed when [Ca<sup>2+</sup>]<sub>i</sub> oscillations are present. By permanently opening or closing the K<sub>ATP</sub> channels with diazoxide or tolbutamide, respectively, it was investigated if glucose can modulate pulsatile insulin secretion when it does not influence the channel activity. Under these conditions, [Ca<sup>2+</sup>]<sub>i</sub> remained stable whereas the amplitude of the insulin pulses increased with sugar stimulation without change in the frequency. Metabolic inhibition blunted but did not prevent the insulin pulses. The results indicate that oscillations in metabolism can generate pulsatile insulin release when [Ca<sup>2+</sup>]<sub>i</sub> is stable. However, under physiological conditions, pulsatile secretion is driven by oscillations in metabolism and [Ca<sup>2+</sup>]<sub>i</sub>, acting in synergy.</p> Cell biology islets of Langerhans insulin ELISA cytoplasmic calcium oscillations type 2 diabetes glucose diazoxide potassium tolbutamide DNP antimycin A iodoacetamide microfluorometry fura-2 KATP channels Cellbiologi Cell biology Cellbiologi
206	Pulsatile insulin release from single islets of Langerhans Westerlund, Johanna January 2000 (has links) Insulin release from single islets of Langerhans is pulsatile. The secretory activities of the islets in the pancreas are coordinated resulting in plasma insulin oscillations. Nutrients amplitude-regulate the insulin pulses without influencing their frequency. Diabetic patients show an abnormal plasma insulin pattern, but the cause of the disturbance remains to be elucidated. Ithe present thesis the influence of the cytoplasmic calcium concentratio([Ca2+]i) and cell metabolism on pulsatile insulin release was examined in single islets of Langerhans from ob/ob-mice. Glucose stimulation of insulin release involves closure of ATP-sensitive K+ channels (KATP channels), depolarization, and Ca2+ influx in β-cells. In the presence of 11 mM glucose, pulsatile insulin secretion occurs in synchrony with oscillations i[Ca2+]i. When [Ca2+]i is low and stable, e.g. under basal conditions, low amplitude insulin pulses are still observed. When [Ca2+]i is elevated and non-oscillating, e.g. when the β-cells are depolarized by potassium, high amplitude insulin pulses are observed. The frequency of the insulin pulses under these conditions is similar to that observed when [Ca2+]i oscillations are present. By permanently opening or closing the KATP channels with diazoxide or tolbutamide, respectively, it was investigated if glucose can modulate pulsatile insulin secretion when it does not influence the channel activity. Under these conditions, [Ca2+]i remained stable whereas the amplitude of the insulin pulses increased with sugar stimulation without change in the frequency. Metabolic inhibition blunted but did not prevent the insulin pulses. The results indicate that oscillations in metabolism can generate pulsatile insulin release when [Ca2+]i is stable. However, under physiological conditions, pulsatile secretion is driven by oscillations in metabolism and [Ca2+]i, acting in synergy. Cell biology islets of Langerhans insulin ELISA cytoplasmic calcium oscillations type 2 diabetes glucose diazoxide potassium tolbutamide DNP antimycin A iodoacetamide microfluorometry fura-2 KATP channels Cellbiologi Cell biology Cellbiologi
207	Cell-Specific Ca2+ Response in Pancreatic ß-cells Gustavsson, Natalia January 2005 (has links) Pancreatic ß-cells are heterogeneous in their secretory responsiveness, glucose sensitivity and metabolic rate. A diminished and delayed first-phase insulin release is an early sign of failing ß-cells in diabetes. Mechanisms controlling functional characteristics, such as lag time for insulin release or magnitude of the response in each individual cell are unknown. To find out whether the heterogeneity represents a random phenomenon in ß-cell or is a manifestation of reproducible characteristics, we compared parameters of Ca2+ response in Fura-2 labelled ob/ob mouse ß-cells during two consecutive stimulations with glucose. Lag times, as well as peak heights and nadirs of initial lowering showed a strong correlation between the first and second stimulation. Thus, timing and magnitude of the early Ca2+ response were specific for each cell. ß-Cells from lean mice, diabetic db/db mice and rats also showed cell-specific responses characteristics. This indicates that a cell-specific Ca2+ response to glucose is common in rodent ß-cells, both normal and diabetic. Another question was whether aggregated ß-cells show cell-specific responses. Using the same protocol as for dispersed ß-cells, we analysed Ca2+ responses in clusters of different size and in intact islets from ob/ob and lean mice. Correlations were found between the first and second stimulation for timing and magnitude of [Ca2+]i rise, and for the initial lowering. Next, we tested if the ß-cell response is cell-specific, when induced at different steps of the stimulus-secretion coupling. The glycolytic intermediate glyceraldehyde, the mitochondrial substrate KIC, the KATP-channel blocker tolbutamide and arginine were used as tools. [Ca2+]i changes were studied in dispersed ß-cells from lean, ob/ob and db/db mice. NADH responses to glucose and KIC were analyzed as a measure of metabolic flux. The correlation between Ca2+ and insulin response from individual ß-cells was tested using Fluo-3 and Fluozin-3. Both timing and magnitude of calcium responses were cell-specific in lean mouse ß-cells with all tested secretagogues. ß-Cells from ob/ob and db/db mice showed cell-specific timing of Ca2+ responses to glyceraldehyde but not to KIC, tolbutamide or arginine. However, ob/ob mouse ß-cells within intact islets showed cell-specific timing of tolbutamide-induced response. NADH responses to glucose were cell-specific in all three mouse models, but the timing of NADH responses to KIC was cell-specific only in lean mice. Thus, a cell-specific response can be induced in normal ß-cells at several steps of stimulus-secretion coupling for nutrient-stimulated insulin release. Cell-specific properties of ß-cell ion channels and the mitochondrial metabolism are affected in db/db and ob/ob mice. The relation between mitochondrial mass and parameters of Ca2+ responses were investigated in Mitotracker Red and Fluo-3 labelled ß-cells using confocal microscopy. Data show that ß-cell mitochondrial state may play an important role in determining the timing of [Ca2+]i changes. In summary, the early Ca2+ response pattern in ß-cells, including the lag time, the nadir of initial lowering and the height of the first peak response is cell-specific. Isolated and functionally coupled ß-cells show cell-specific timing of Ca2+ responses when stimulated with metabolic and non-metabolic agents. This may be a robust mechanism of importance for the adequate function of ß-cells and a basis for the pacemaker function of some cells. A disturbed cell specificity of the mitochondrial metabolism and ion channel function appears to be a marker of ß-cell dysfunction in hyperglycemia and diabetes and may explain the delayed insulin release in ß-cells from diabetic subjects. Histology Histologi
208	Variabilidade dos domínios alpha-3, transmembrana e cauda citoplasmática de HLA-C e detecção de variantes que podem modificar sua função Paz, Michelle Almeida da. January 2018 (has links) Orientador: Erick da Cruz Castelli / Resumo: O Complexo Principal de Histocompatibilidade (MHC) é um complexo gênico que está intimamente envolvido com a regulação do sistema imune. Esse complexo comporta o sistema de Antígenos Leucocitários Humano (HLA), cuja principal importância está relacionada com o reconhecimento do que é próprio ou não do organismo. HLA-C é o gene polimórfico menos variável dos genes HLA clássicos e o que tem menor expressão nos tecidos, exceto na interface materno-fetal, em que é o único gene clássico expresso. A molécula codificada por esse gene possui significante função na apresentação antigênica e regulação da atividade de células NK, o que permite uma íntima associação com situações fisiológicas, como gestação, e patológicas, como doenças infecciosas, autoimunes, inflamatórias, neoplasias e rejeições a enxertos transplantados. Sua porção gênica mais estudada é a que codifica a fenda de ligação a peptídeos antigênicos, devido sua destacada importância na apresentação de antígenos a células T citotóxicas. No entanto, outras regiões do gene, que são negligenciadas nos estudos de variabilidade, também merecem destaque por influenciarem na sinalização e modulação da citotoxicidade de células efetoras, na ancoragem e estabilidade da molécula na membrana plasmática e na internalização e reciclagem da molécula HLA-C. Desta maneira, nós exploramos a variabilidade dos segmentos que codificam α3 (éxon 4), transmembrana (éxon 5) and cauda citoplasmática (éxon 6 and éxon 7) da molécula HLA-C em uma popu... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The Major Histocompatibility Complex (MHC) is a gene complex closely involved in the regulation of the immune system. This complex includes the Human Leukocyte Antigen (HLA) system, whose main role is related to the recognition of self/non-self structures of humans. HLA-C is the least variable polymorphic gene of classical HLA genes and has the lowest expression in tissues, except at the maternal-fetal interface, where it is the only classical HLA class I expressed gene. The molecule encoded by this gene has a significant role in the antigen presentation and regulation of NK cells activities, which allows an intimate association with physiological conditions, such as pregnancy, and pathological conditions like infectious, autoimmune, and inflammatory diseases, cancer, and transplantation rejection. The most studied HLA-C portion is that encoding the peptide-binding groove, due to its outstanding importance in presentation of antigens to cytotoxic T cells. However, other regions of the gene, which are neglected in the variability studies, are also important in influencing the signaling and modulation of effector cell cytotoxicity, in the anchorage and stability of the molecule on the cell surface, and in the internalization and recycling of the HLA-C molecule. Here, we explore the variability of the segments encoding the α3 (exon 4), transmembrane (exon 5) and cytoplasmic tail (exon 6 and exon 7) domains of the HLA-C molecule in an admixed population sample from Southeastern B... (Complete abstract click electronic access below) / Mestre HLA-C Sequenciamento de Nova Geração domínio α3 domínio transmembrana cauda citoplasmática variabilidade Next Generation Sequencing alpha-3 domain transmembrane domain cytoplasmic tail variability
209	Differential Mechanisms of Nuclear Receptor Regulation by the Coactivator RAC3: A Dissertation Leo, Christopher 12 October 2000 (has links) The steroid/thyroid hormone receptor superfamily is a large class of ligand-dependent transcription factors that plays a critical role in regulating the expression of genes involved in a broad range of physiological functions, including development, homeostasis, and reproduction. In the absence of cognate hormone, several receptors are able to repress transcription below the basal level via the recruitment of the nuclear receptor corepressors SMRT and NCoR. Upon hormone binding by the receptor, the corepressor complex is dissociated and a coactivator complex is subsequently recruited. This thesis details the mechanisms by which receptor-associated coactivator 3 (RAC3) interacts with nuclear receptors, particularly the vitamin D, estrogen, and retinoid receptors, and modulates their transcriptional activity. It was discovered that these receptors interact with different α-helical LXXLL motifs of RAC3 in vitro. Mutation of specific motifs differentially impairs the ability of RAC3 to enhance transcription by the receptors in vivo. In addition, the intrinsic transcriptional activation function of RAC3 was also characterized. Here, a single LXXLL motif, NR box v, was found to be essential to activation by serving as a binding surface for the general transcriptional integrator CBP/p300. Finally, the cofactor binding pocket of retinoid receptors was characterized. It was demonstrated that, to a large extent, the coactivator pocket of RARα overlaps with the corepressor pocket, with the exception of helix 12, which is required for coactivator, but not corepressor binding. Recruitment of RAC3 or SMRT also correlates directly with the ability of RARα to activate or repress transcription, respectively. Intriguingly, it was discovered that the AF-2 domain of RXRα inhibited cofactor binding to RXRα heterodimers, for deletion of this domain dramatically enhanced RAC3 and SMRT binding. In addition, it was demonstrated that the RXRα cofactor binding pocket contributed minimally to recruitment of cofactors. Conversely, the AF-2 domain of the partnering monomer and its cofactor pocket were required for these interactions. These findings suggest that the partner of RXRα is the primary docking point for cofactors at RXRα heterodimeric complexes. Taken together, this work contributes significantly to the field of nuclear receptor function in detailing the mechanisms by which the coactivator RAC3 is recruited to nuclear receptors and regulates their transcriptional activity. Receptors Cytoplasmic and Nuclear RAC3 protein Gene Expression Regulation Amino Acids, Peptides, and Proteins Chemical Actions and Uses Genetic Phenomena Polycyclic Compounds
210	Avaliação da integridade do acrossoma, membrana citoplasmática, potencial mitocondrial, cromática e produção de embriões in vitro de sêmen bovino com altos índices de gota citoplasmática proximal Carreira, Janaina Torres [UNESP] 28 February 2008 (has links) (PDF) Made available in DSpace on 2014-06-11T19:29:15Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-02-28Bitstream added on 2014-06-13T19:26:54Z : No. of bitstreams: 1 carreira_jt_me_jabo.pdf: 1115702 bytes, checksum: f2dddb9edf2109b5192f0e4f605b5b97 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / O objetivo deste trabalho foi avaliar os efeitos da gota citoplasmática proximal (GCP) no sêmen de bovinos quanto à integridade do DNA, das membranas citoplasmática, acrossomal, no potencial mitocondrial e verificar a taxa de produção de embriões in vitro. Três amostras descongeladas de cinco (Controle: espermiograma normal), e oito touros Bos indicus (Gota: GCP ≥15%) foram avaliadas. Foram realizados os seguintes testes: motilidade e vigor pós-descongelação, concentração, morfologia espermática, teste de termo-resistência lento (TTL), integridade da membrana acrossomal, plasmática e potencial mitocondrial utilizando sondas fluorescentes (PI, FITC-PSA e JC-1) e integridade da cromatina pelo método de coloração com laranja de acridina. Dois touros com índices elevados de GCP e três animais controle foram selecionados para fertilização in vitro (FIV). As análises estatísticas foram efetuadas empregando-se o programa Statistical Analysis System. O nível de significância foi de 5%. Os resultados obtidos demonstraram que altos índices de GCP não afetaram a motilidade e o vigor, antes e após o TTL, assim como não interferiram na porcentagem de acrossomas intactos. Os resultados destas avaliações mostraram que a alta incidência de GCP afetou a integridade da membrana acrossomal e plasmática bem como a presença de potencial mitocondrial. No entanto, a alta incidência de GCP não promoveu aumento na porcentagem de injúrias à cromatina após descongelação, mas os resultados sugerem que podem ser mais sensíveis à desnaturação quando incubados por três horas. No experimento II, os índices de produção de embriões in vitro podem ter sido afetados pela interação da alteração morfológica e o efeito individual do touro. / The objective of this study was to evaluate the effects of the proximal cytoplasmic droplets (PCD) in bovine semen, on the integrity of DNA, cytoplasmic membrane, acrossome, mitochondrial function and the rate of in vitro embryo production. Three batches of five (control group G1: normal sperm parameters) and eight Bos indicus bulls (G2: PCD ≥15%) were analysed. The following tests were carried out: post thaw motility and, vigor, concentration, sperm morphology, slow thermo-resistance (TRT), membrane integrity, acrossome status, mitochondrial function through fluorescent probes (FITC-PSA, PI and JC-1) and integrity of chromatin was accessed by acridine orange stain. Two bulls with high rates of PCD and three animals (control group) were selected for in vitro fertilization (IVF). Statistical analyses were performed using the Statistical Analysis System. The significance level was 5%. The results showed that high rates of PCD did not affect motility and vigor, before and after the TRT, and did not affect the percentage of intact acrossome. The results showed that the high incidence of PCD affected membrane integrity, acrossome status and mitochondrial function when compared to the G1 group due. However, the high incidence of PCD did not affect the percentage of chromatin injury after thawing, but results suggest that spermatozoa may be more susceptible to damage when incubated for three hours. In experiment II the embryo production rate may have been affected by the interaction of the morphology traits and the bull effect. Bovino Reprodução animal DNA Acrossoma Gota citoplasmática proximal Membrana plasmática Potencial mitocondrial Acrosome Bovine IVF Proximal cytoplasmic droplet Plasma membrane Mitochondrial function

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