Global ETD Search

61	Analysis of Aurora B regulation and signaling Öncel, Dilhan. January 2006 (has links) (PDF) Thesis (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2006. / Not embargoed. Vita. Bibliography: 173-176.
62	A ativação da mTOR em resposta à sobrecarga de nutrientes, e sua correlação com a apoptose e o estresse de retículo endoplasmático em células HepG2 / The mTOR activation in response to overload of nutrients and their relationship with apoptosis and endoplasmic reticulum stress in HepG2 cell line Araújo, Thiago Matos Ferreira de 25 August 2018 (has links) Orientador: Gabriel Forato Anhê / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-25T19:01:58Z (GMT). No. of bitstreams: 1 Araujo_ThiagoMatosFerreirade_D.pdf: 1239554 bytes, checksum: 87d5fc958173ca83a217021c9d866455 (MD5) Previous issue date: 2014 / Resumo: A obesidade é caracterizada pela deposição ectópica de gordura no fígado. Este acúmulo de gordura hepática (NAFLD) pode gerar consequências graves, como a hepatite não alcoólica (NASH), fator de ricos para carcino hepatocelular (HCC). A morte de hepatócitos, evento chave na evolução da NAFLD para NASH, é causada pelo excesso de nutrientes e é dependente do estresse de retículo endoplasmático (RE). O estresse no RE resulta no acúmulo de proteínas não processadas desencadeia a "unfolded protein response" (UPR), podendo gerar apoptose. A mTOR é formada basicamente por dois complexos: mTOR1 e mTOR2; ambos são sensíveis a nutrientes, a insulina e a rapamicina. O complexo mTOR2/Rictor catalisa a fosforilação da AKT, aumentando a sinalização da insulina. Deste modo, o objetivo deste trabalho foi avaliar a relação entre ativação da mTOR, do estresse de RE e da apoptose em hepatócito expostos a ácidos graxos livres. Observamos que a apoptose causada pelo palmitato ativa o estresse de RE de maneira tempo dependente. Não observamos alterações na fosforilação de proteínas alvo específicas para o complexo mTOR1. No entanto, a fosforilação geral da mTOR foi estimulada pelo palmitato. Altas doses de rapamicina inibiram a apoptose e do estresse de RE causado pelo palmitato, sugerindo a participação do complexo mTOR2. Estes resultados ainda foram confirmados pelo silenciamento gênico da Rictor. A fosforilação em serina 473 da AKT apresenta um caráter transitório, elevando-se em tempos que precedem morte e o estresse de RE, e diminuindo em tempos prolongados concomitantemente à apoptose. A inibição da AKT pelo "AKT inhibitor" gerou diminuição da apoptose, do estresse de RE e da incorporação lipídica na linhagem de hepatoma. Estes dados sugerem que a AKT, como alvo preferencial da mTOR2 é necessária para geração de morte e da UPR. A glicose (33.3mM) gera morte as células HepG2 e esta é inibida com baixas doses de rapamicina, mostrando possível atividade via mTOR1 nesta resposta. De outro modo, a frutose (4.5mM) que também desencadeia apoptose das células de hepatoma, tem seu efeito inibido por doses maiores de rapamicina, indicando atividade mTOR2 neste processo. No entanto, a possibilidade de diferentes monossacarídeos recrutarem complexos diferentes de mTOR para desencadear apoptose ainda precisa ser melhor explorada / Abstract: Obesity is characterized by fat ectopic deposition in liver. This hepatic fat accumulation our non-alcoholic fat liver disease (NAFLD) can have serious consequences such as non-alcoholic hepatitis (NASH), that is a factor to liver cancer. The cell death of hepatocytes is an important event in the development to NAFLD to NASH, all that are caused by excess nutrients and dependent of endoplasmic reticulum (ER) stress. The ER stress is caused by accumulation of unfolded proteins triggers the unfolded protein response (UPR), which mau cause apoptosis. mTOR is basically formed by two complexes: mTOR1 and mTOR2, both are sensitive to nutrients, insulin and rapamycin. The mTOR2/Rictor complex catalyse AKT phosphorylation increasing the insulin pathway. All together, the aim of this study was evaluate the relationship between mTOR, ER stress and apoptosis in liver cells exposed to free fatty acids. We observed that apoptosis caused by palmitate activates ER stress in a manner dependent on time. We din¿t observed changes in phosphorylation of specific target proteins to mTOR1 complex. However, a general phosphorylation of mTOR was stimulated by palmitate. High doses of rapamycin inhibited apoptosis and ER stress caused by palmitate, suggesting the participation of the mTOR2 complex. These results were further confirmed by gene silencing of Rictor. The AKT phospholylation in serine 473 has a transitional character, rising in times that preceding cell death and ER stress, and decreasing concomitantly apoptosis in prolonged times. Inhibition of AKT by AKT inhibitor caused a decrease in apoptosis, ER stress and lipid incorporation in hepatoma cell line. These data suggest that AKT, preferential targets of mTOR2 is required for generation death and UPR. Glucose (33.3mM) generates HepG2 cell death and this is inhibited by low doses on rapamycin, showing possible mTOR1 activity. Otherwise, fructose (4.5mM) also triggers apoptosis of hepatoma cells; its effect is inhibited by higher doses of rapamycin, indicating mTOR2 activity in this process. However, the possibility of different monosaccharide recruit different complexes of mTOR to trigger apoptosis should be further explored / Doutorado / Farmacologia / Doutor em Farmacologia Estresse do retículo endoplasmático Apoptose Serina-treonina quinases TOR Hipertensão Overnutrition Endoplasmic reticulum stress Apoptosis TOR serine-threonine kinases
63	Análise do papel da via de sinalização sensível à rapamicina na expressão gênica e multiplicação celular de Chlamydomonas reinhardtii = Analysis of the rapamycin-sensitive signaling pathway role in gene expression and cell multiplication of Chlamydomonas reinhardtii / Analysis of the rapamycin-sensitive signaling pathway role in gene expression and cell multiplication of Chlamydomonas reinhardtii Almeida, Gustavo Pereira de, 1986- 21 August 2018 (has links) Orientador: Gonçalo Amarante Guimarães Pereira / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-21T15:05:51Z (GMT). No. of bitstreams: 1 Almeida_GustavoPereirade_M.pdf: 7665145 bytes, checksum: 3fef8dc5d333834f8117015fea3b10ef (MD5) Previous issue date: 2012 / Resumo: A produção de energia por meio de fontes renováveis é uma exigência atual para se atingir uma economia sustentável. Os organismos fotossintetizantes surgem nesse contexto como ferramentas importantes na produção de compostos carbônicos ricos em energia, com destaque para microalgas em que tais compostos podem atingir até 80% do peso seco. Entretanto, um fator ainda desfavorável para sua utilização é o seu baixo rendimento na produção de biomassa. A espécie Chlamydomonas reinhardtii, por exemplo, é capaz de duplicar apenas algumas vezes durante 24 horas. As vias que controlam o crescimento celular, portanto, são alvos promissores para modificação genética. Dentre essas vias, à via de sinalização sensível à rapamicina aparece como um controlador central. Com o intuito de entender melhor como esse controle é exercido ao nível da expressão gênica global, foi utilizado a ferramenta de sequenciamento de RNA em larga escala para obtenção dos transcriptomas de culturas (sincronizadas) sob inibição dessa via e na condição controle, em oito momentos ao longo de um ciclo celular de 24h. O controle exercido por essa via sobre o metabolismo e sobre o ciclo celular foi o foco das análises. Foi encontrado que a inibição da via da TOR é capaz de gerar uma resposta de direcionamento parcial do metabolismo para a produção de TAG em detrimento de moléculas complexas como proteínas. Esse direcionamento foi considerado parcial devido à ocorrência concomitante de reações catabólicas. Outros dados obtidos sugerem que a via da TOR, além de regular o metabolismo de uma maneira geral e diversas funções celulares, também exerce influência sobre o progresso do ciclo celular e sua inibição resulta no atraso do desenvolvimento das fases do ciclo. Diversos fatores reguladores da transcrição envolvidos no desenvolvimento, no crescimento e na regulação do ciclo celular, foram encontrados diferencialmente expressos e constituem possíveis genes chave no controle do crescimento. Eles representam alvos em potencial para modificação genética com intuito de otimizar as taxas de crescimento na primeira etapa do sistema de produção. Na busca de alternativas aos processos atuais de indução do acúmulo de cadeias carbônicas, os efeitos da combinação rapamicina e via da TOR representam uma abordagem interessante para pesquisas futuras para viabilização da utilização de microalgas como fonte de energia. Este estudo possibilitou um melhor entendimento da atuação da via da TOR no crescimento e progresso do ciclo celular em C. reinhardtii ao nível de expressão gênica / Abstract: The energy production through renewable sources is an actual demand for achieving a sustainable economy. In this context, photosynthesizing organisms come to light as important tools for the production of energy-rich carbonic compounds, especially the microalgae, in which these compounds can reach up to 80% of the dry weight. However, an unfavorable factor for its utilization is the low yield of biomass production. The species Chlamydomonas reinhardtii, for instance, is capable of achieving only some duplication after 24 hours. The pathways that control cell growth are therefore promising targets for genetic modification. Among them, the rapamycin-sensitive signaling pathway emerges as a central controller. With the aim of better understanding how this control is fulfilled by the means of global gene expression, the high throughput RNA sequencing technology was used. With it, the synchronized cultures transcriptome under the inhibition of this pathway and in the control condition, of eight points during a cellular cycle of 24 hours, were obtained. The metabolism and the cell cycle control by the TOR pathway was the main focus of the analysis. It was found that the inhibition of this pathway is capable to partially draw the metabolism towards TAG production to the detriment of producing more complex chains as proteins. This directing was considered partial due to the concomitant occurrence of catabolic reactions. Other data suggested that the TOR pathway, apart from the metabolism regulation in a general way and regulation of many other cellular functions, also influence the cell cycle progression and its inhibition retards the development of cell phases. Several transcription regulators involved in development, growth and cell cycle regulation were found out to be differentially expressed and are likely to constitute key genes in growth control. They represent potential targets for genetic modification aiming the optimization of growth rate in the first step of the production system. In the search for alternatives to the current process of inducing carbon chain accumulation, the effects of the combination between rapamycin and TOR pathway represent an interesting approach for future research intending to turn the utilization of microalgae as an energy source into a feasible option. This study enabled a better understanding of the role of the TOR pathway in growth and cell cycle progression of C. reinhardtii at the level of gene expression / Mestrado / Genetica de Microorganismos / Mestre em Genética e Biologia Molecular Microalga Chlamydomonas reinhardtii Serina-treonina quinases TOR Transcriptoma Biocombustíveis Microalgae Biofuels Chlamydomonas reinhardtii TOR serine threonine kinases Transcriptome
64	Cellular and molecular characterization of inflammation in the injured spinal cord Ghasemlou, Nader. January 2008 (has links) No description available. Inflammation -- etiology. Spinal Cord Injuries -- complications. Mice, Inbred BALB C. Mice. Lysophosphatidylcholines.
65	Régulation post-traductionnelle des protéines via phosphorylation chez deux bactéries pathogènes : Mycobacterium tuberculosis et Staphylococcus aureus / Post-translational regulation of proteins by serine/threonine phosphorylation in two pathogenic bacteria : Mycobacterium tuberculosis and Staphylococcus aureus Leiba, Jade 07 June 2013 (has links) La capacité d'adaptation des bactéries à leur environnement repose, entre autres choses, sur des mécanismes de transduction du signal. Ces mécanismes leur permettent de percevoir la nature et les modifications du milieu dans lequel elles évoluent et d'adapter en conséquence leur métabolisme et leur physiologie. L'un de ces mécanismes identifié chez les procaryotes repose sur un processus de régulation impliquant, suite à un stimulus extérieur, une modification réversible des protéines au niveau de résidus séryles et thréonyles par phosphorylation via les sérine/thréonine protéine-kinases (STPK). Chez les bactéries pathogènes, notamment Mycobacterium tuberculosis et Staphylococcus aureus, les STPKs sont impliquées dans la régulation du métabolisme central, de la division cellulaire, de la composition de la paroi et de la virulence. Mes travaux de thèse ont eu pour objectif d'approfondir les connaissances sur la régulation post-traductionnelle des protéines via les STPKs chez ces deux pathogènes humains. Nous avons ainsi identifié de nouveaux substrats des STPKs chez M. tuberculosis et S. aureus et caractérisé l'effet de la phosphorylation sur l'activité de ces substrats. L'ensemble de mes travaux de thèse met en avant le rôle important de la régulation par les STPKs de voies métaboliques diverses chez ces deux pathogènes. / To overcome the stressful conditions imposed during host infections, pathogens have evolved various protective and offensive responses that could be achieved through cascades of phosphorylation. Many of the encountered external stimuli are transduced via sensor kinases embeded within the bacterial membrane, allowing the pathogen to adapt and survive in hostile environments. In addition to the classical two-component systems, Staphylococcus aureus and Mycobacterium tuberculosis possess eukaryotic-like Serine/Threonine Protein-Kinases (STPK). It is becoming clear that in these two human pathogens, many of the STPKs are involved in the regulation of metabolic processes, division, cell wall composition, virulence, etc. Therefore, signalling through STPK phosphorylation has recently emerged as a key regulatory mechanism in pathogenic bacteria. Thus, to investigate the mechanisms of STPK-dependent regulation in M. tuberculosis and S. aureus, we identified and characterized novel endogenous phosphorylated substrates, and analyzed the impact of phosphorylation on their specific activity. Overall, the results presented herein emphasize the important role of STPK-dependent mechanisms in various metabolic pathways in these two pathogens. Modification post-traductionnelle Phosphorylation Mycobacterium tuberculosis Staphylococcus aureus Post-translational modification Phosphorylation Serine/Threonine Proteine-Kinases (STPK) Mycobacterium tuberculosis Staphylococcus aureus
66	Rôle des sérine/thréonine protéine-kinases dans la virulence de Staphylococcus aureus / Role of serine/threonine protein-kinases in the virulence of Staphylococcus aureus Didier, Jean-Philippe 22 October 2009 (has links) Ce travail porte sur l’étude des mécanismes de phosphorylation des protéines par les sérine/thréonine kinases chez Staphylococcus aureus. Nous avons, tout d’abord, mis en évidence et caractérisé une seconde Ser/Thr-kinase, nommée Stk2. Cette kinase présente peu d’homologies avec les autres Ser/Thr-kinases bactériennes décrites à ce jour, en particulier avec la première Ser/Thr-kinase mise en évidence précédemment chez S. aureus, Stk1. Nous avons ensuite caractérisé dix sites d’autophosphorylation de Stk2 et nous avons montré que trois sites sont nécessaires à son activité. Enfin, nous avons montré que le régulateur global de virulence, SarA, est phosphorylé à la fois par Stk1 et Stk2. La phosphorylation de SarA influence sa capacité de liaison à l’ADN. Cette étude contribue à mieux appréhender, au niveau moléculaire, le rôle des Ser/Thr-kinases dans le métabolisme des bactéries et, plus particulièrement, dans la régulation de leur virulence / We report that protein phosphorylation on serine and threonine is required for controlling staphylococcal virulence. We identified and characterized a second serine/threonine kinase, Stk2, in S. aureus. Biochemical analyses revealed that this enzyme displays autokinase activity on both threonine and serine residues. Stk2 is atypical in the sense that it exhibits a weak similarity with the first Ser/Thr-kinase previously detected, Stk1, and its undergoes a different mechanism of activation compared to the other bacterial Ser/Thr-kinases described so far. We also showed that SarA, a major transcription factor that regulates more than a hundred virulence genes, is phosphorylated by both Stk1 and Stk2. Phosphorylation of SarA leads to strong effects on its ability to bind DNA. The study of Stk1 and Stk2, at the molecular level, provides a better understanding of the role of these staphylococcal Ser/Thr-kinases in bacterial metabolism and, in particular, in the regulation of virulence Sérine/thréonine protéine-kinases Staphylococcus aureus Stk SarA Virulence Dictyostelium discoideum Serine/threonine protein-kinases Staphylococcus aureus Stk SarA Virulence Dictyostelium discoideum 572
67	Caracterização molecular de INc-1, um inibidor da proteína fosfatase do tipo 1 de neurospora crassa / Molecular characterization of INC-1, an inhibitor of protein phosphatase type 1 Neurospora crassa Beton, Daniela 01 October 2004 (has links) A proteína serina/treonina fosfatase do tipo 1 (PP1) é a principal serina/treonina fosfatase envolvida na regulação de diversos processos tais como metabolismo, crescimento e divisão celular, síntese protéica e processamento de RNA. A holoenzima PP1 é constituída de uma subunidade catalítica conservada (PP1c) e subunidades reguladoras variáveis. Em mamíferos já foram identificados dezenas de polipeptídeos que associam-se direta ou indiretamente a PP1c, gerando holoenzimas com localizações celulares e especificidades distintas. Entre as proteínas que se associam a PP1c, muitas têm função inibitória como o inibidor-1 (I-1) e o inibidor-2 (I-2). A partir de extratos de micélios de Neurospora crassa foi purificada uma proteína, denominada INc-1, que atua in vitro como inibidor da atividade de fosforilase fosfatase de PP1c e constitui-se no primeiro exemplo de subunidade reguladora da PP1 descrito em fungos filamentosos. INc-1 apresenta diversas características bioquímicas comuns ao I-2 de mamíferos. Seqüências parciais de aminoácidos de três fragmentos proteolíticos obtidos de INc-1 permitiram a identificação de uma ORF (fase aberta de leitura) no genoma de N. crassa que provavelmente codifica INc-1. A análise dessa ORF mostrou que a sequência de aminoácidos do INc-1 é similar a do I-2, especialmente em regiões supostamente envolvidas em sua interação com a PP1c. Neste trabalho descrevemos a clonagem e a expressão em bactérias da sequência codificadora de INc-1. A atividade inibidora de PP1c de duas isoformas recombinantes purificadas, INc-1L e INc-1, foram avaliadas e comparadas. A forma denominada INc-1L apresenta em sua região aminoterminal um segmento de 38 aminoácidos derivado da retenção de um íntron, sem alterar a fase de leitura. Ambas proteínas recombinantes exibiram efeito inibidor sobre a atividade de fosforilase fosfatase de PP1c recombinante, sendo que a IC50 determinada para INc-1L foi de ~50nM e para INc-1 foi de ~11nM, sugerindo que a retenção do segmento de aminoácidos codificado pelo íntron na isoforma INc-1L diminui seu potencial inibitório. Verificamos também que o mRNA de INc-1 é expresso durante o crescimento vegetativo de N.crassa, apresentando níveis máximos na fase exponencial. / Type 1 protein serine/threonine phosphatases (PP1) play important roles in the regulation of many cellular functions including metabolism, cell growth and division, protein synthesis and pre-mRNA splicing. PP1 holoenzyme consists of one highly conserved catalytic subunit (PP1c) and variable regulatory subunits. A number of proteins that interact with PP1c have been described in mammals and the respective holoenzymes present distinct substrate specificity and/or different subcelular localization. Among the proteins that interact with PP1c, there are many with inhibitory effect such as inhibitor-1 (I-1) and inhibitor-2 (1-2). It has been demonstrated that a protein denominated INc-1, purified from Neurospora crassa extracts, specifically inhibits PP1c and has biochemical properties that resemble those of mammalian I-2. INc-1 is the first example of a PP1c regulatory subunit in filamentous fungi. Partial amino acid sequences of INc-1 led to the identification of an ORF (open reading frame) in Neurospora crassa genome which appears to encode INc-1. This ORF shows similarity with mammalian I-2 mainly in regions mapped as sites for interaction with PP1c. In this work we report the cloning and bacterial expression of the coding sequence for INc-1. The PP1c inhibitory activities of two recombinant isoforms, named INc-1L and INc-1, were compared. INc-1L aminoacid sequence presents an in frame segment of 38 residues encoded by an non-processed intron. 80th recombinant proteins showed inhibitory effect against phosphorylase phosphatase activity of recombinant PP1c, with IC50 of ~50nM for INc-1L and ~11nM for INc-1, suggesting that retention of the 38 residue segment decrease the inhibitory potential of INc-1L. We have also verified that INc-1 mRNA is expressed during N.crassa vegetative growth with maximum level at the exponential phase. Biologia molecular Inibidor-2 Molecular biology Neurospora crassa Neurospora crassa Proteína serina/treonina fosfatase Proteínas Proteins
68	Roles of LKB1/AMPK signalling in the C. elegans dauer larva Narbonne, Patrick. January 1900 (has links) Thesis (Ph.D.). / Written for the Dept. of Biology. Title from title page of PDF (viewed 2009/11/30). Includes bibliographical references.
69	Nuclear translocation in the Drosophila eye disc : an inside look at the role of misshapen and the endocytic-recycling traffic pathway Houalla, Tarek. January 2007 (has links) The main focus of my PhD studies was aimed at understanding the general mechanism of nuclear translocation and isolating novel components of the nuclear translocation pathway in neurons. Using the Drosophila visual system as an in vivo model to study nuclear motility in developing photoreceptor cells (R-cells), I have identified a novel role for the Ser/Thr kinase Misshapen (Msn) and the endocytic trafficking pathway in regulating the nuclear translocation process. / The development of R-cells in the Drosophila eye disc is an excellent model system for the study of nuclear motility owing to its monolayer organization and the stereotypical translocation of its differentiating R-cell nuclei along the apical-basal plane. Prior to my thesis work, several laboratories had identified dynein and its associating proteins in R-cell nuclear translocation, however nothing was known about the signalling pathway that controlled their function in nuclear migration. Thus, one of my thesis goals was to elucidate the signalling mechanism controlling nuclear translocation in R-cells. / Using a combination of molecular and genetic approaches, I identified Msn as a key component of a novel signalling pathway regulating R-cell nuclear translocation. Loss of msn causes a failure of R-cell nuclei to migrate apically. Msn appears to control R-cell nuclear translocation by regulating the localization of dynein and Bicaudal-D (Bic-D). My results also show that Msn enhances Bic-D phosphorylation in cultured cells, suggesting that Msn regulates R-cell nuclear migration by modulating the phosphorylation state of Bic-D. Consistently, my results show that a Bic-D-phosphorylation-defective mutation disrupted the apical localization of both Bic-D and dynein. I propose a model in which Msn induces the phosphorylation of Bic-D, which in turn modulates the activity and/or subcellular localization of dynein leading to the apical migration of R-cell nuclei. / In addition to studying Msn, I have also searched for additional players in R-cell nuclear migration. From a gain-of-function approach, I found that the misexpression of the GTPase-activating-protein (GAP) RN-Tre caused a severe defect in R-cell nuclear migration. Since mammalian RN-Tre is involved in negatively regulating Rab protein activity, I speculated that the RN-Tre misexpression phenotype reflected a role for Rab-mediated vesicular transport in regulating R-cell nuclear migration. I systematically examined the potential role of Rab family proteins in R-cell nuclear migration and found that interfering with the function of Rab5, Rab11 or Shibire caused a similar nuclear migration phenotype. I propose that an endocytic pathway involving these GTPases is required for the targeting of determinants to specific subcellular locations, which in turn drive the apical migration of R-cell nuclei during development. Cell Movement -- physiology. Drosophila melanogaster -- embryology. Eye -- embryology. Drosophila Proteins -- genetics. Dynein ATPase -- genetics.
70	Studies of aurora and polo kinases during cell division in C. elegans Rogers, Eric Jason. January 2005 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Vita. Bibliography: 108-115.

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