Global ETD Search

271	Estudo da resposta do caramujo Biomphalaria glabrata (Say, 1818) frente a estímulos ambientais estressores, com enfoque na proteína HSP70 / Study of the response from the snail Biomphalaria glabrata (say, 1818) facing stressor environmental stimuli, with focus on the protein HSP70 Rebeca da Silva Cantinha 11 December 2012 (has links) Moluscos têm sido empregados como bioindicadores em estudos de contaminação ambiental. Nesse contexto, o caramujo de água doce Biomphalaria glabrata tem sido avaliado como um bom modelo laboratorial, e estudos prévios apontaram sua aplicação na pesquisa ambiental. A proteína HSP70 é uma molécula de 70 kDa, pertencente a uma família de proteínas com papel na manutenção da homeostase dos seres vivos: as proteínas de choque térmico (HSPs); e vem sendo estudada como potencial biomarcador de dano ambiental, indicando estresse e protegendo os organismos dos danos às proteínas. Neste trabalho, foi caracterizada a proteína HSP70 de B. glabrata pelo Western blot, com o objetivo de seu emprego em aplicações ambientais futuras. Para isso, caramujos de 5-6 meses de idade, com diâmetro de concha de 14,4 (±1,7) mm, foram expostos ao calor e ao cloreto de cádmio (CdCl2) a fim de se verificar a resposta desta proteína frente a esses estresses. Os animais foram dissecados para investigação da indução da HSP70. As proteínas foram extraídas dos tecidos com tampão RIPA, separadas em eletroforese desnaturante em gel de poliacrilamida, transferidas para uma membrana de nitrocelulose e detectadas com anticorpo específico para HSP70. A CL50/96h foi determinada como sendo 0,34 (0,30-0,37) ppm para o CdCl2 e serviu de referência para os experimentos de indução da proteína. Foi observado que a exposição a temperaturas subletais aumentou a resistência dos caramujos à temperatura letal de 42 °C. Exposições prévias ao calor de 33 °C e ao CdCl2 a 0,22 ppm aumentou a sobrevivência dos caramujos B. glabrata à concentração letal de CdCl2 (0,7 ppm) e à temperatura letal (42 °C), respectivamente. Os achados do Western blot apontaram para um possível papel da HSP70 nesse processo. Os resultados mostraram relação entre a proteína HSP70 e o aumento na sobrevivência aos estímulos letais após prévia exposição a estresses moderados. O Western blot mostrou uma indução da HSP70 nos grupos pré-expostos, se comparados aos grupos controles. A glândula digestiva foi o tecido mais responsivo, no que concerne à indução da proteína HSP70, comparando com tecidos de cabeça/pé e ovoteste. Foi encontrado o pico de indução da HSP70 nos caramujos B. glabrata após 48 horas de exposição ao calor de 33 °C, e após 96 horas de exposição ao CdCl2 a 0,22 ppm. Apesar do bem conhecido papel da HSP70 na termotolerância e tolerância a outros agentes estressores nos organismos vivos, esta foi a primeira vez que isto foi demonstrado no B. glabrata, oferecendo subsídios para a sua aplicação em estudos de monitoramento ambiental. Os resultados apresentados aqui abrem o caminho para estudos futuros dessa proteína no molusco, e fornecem mais bases para o conhecimento do B. glabrata. / Molluscs have been employed as bioindicators in studies of environmental stress. In this way the freshwater snail Biomphalaria glabrata has been evaluated as a good laboratory model, and previous studies have pointed for its application in environmental research. The HSP70 protein is a molecule of 70 kDa from a family of proteins with role in maintaining homeostasis: the Heat Shock Proteins (HSPs), and it has been studied as a potential biomarker for environmental injury indicating stress and providing protection against the protein damage. In this work, the protein HSP70 was characterized in B. glabrata by Western blotting aiming its employment in future environmental applications. To this purpose, 5-6 months old snails, with shell diameter of 14,4 (±1,7) mm, were exposed to heat and to cadmium chloride (CdCl2) in order to verify the response of this protein to the stresses. Animals were dissected to investigate induction of HSP70. Proteins were extracted from tissues with RIPA buffer, fractionated in denaturing polyacrilamide gel electrophoresis, transferred to nitrocellulose membrane, and detected with a HSP70-specific antibody. The CL50/96h was determined as 0,34 (0,30-0,37) ppm for CdCl2 and served as reference in the experiments for protein induction. It was observed that exposure to sublethal temperatures improved the resistance of snails B. glabrata to the lethal temperature of 42 ºC. Previous sublethal exposure to heat at 33 °C and to CdCl2 at 0,22 ppm improved the survival of snails B. glabrata to a lethal concentration of CdCl2 (0,7 ppm) and to a lethal temperature (42 ºC), respectively. The findings of Western blot pointed to a possible role of HSP70 protein in this process. Results showed a correlation between HSP70 and the improvement of survival to lethal stimuli after a previous exposure to mild stresses. The Western blot showed an induction of HSP70 protein in the preexposed groups as compared to the control ones. The digestive gland was the most responsive tissue to stress regarding the HSP70 protein induction compared with heat/foot and ovotestis. An induction peak of HSP70 was found after 48 hours of exposure to heat at 33 °C, and after 96 hours of exposure to CdCl2 at 0,22 ppm. Despite of the well known role of HSP70 in thermotolerance and tolerance to other stress agents in living organisms, it was the first time it was shown in B. glabrata, supporting its application in environmental monitoring studies. The results presented here open a way to future studies of this protein in the mollusc, and provide more basements to knowledge of B. glabrata. Biomphalaria glabrata cádmio choque térmico estresse ambiental HSP70 Biomphalaria glabrata cadmium environmental stress heat shock HSP70
272	Análise da expressão gênica em resposta ao choque térmico e cádmio no fungo aquático Blastocladiella emersonii / Analysis of gene expression in response to cadmium and heat shock in the aquatic fungus Blastocladiella emersonii Georg, Raphaela de Castro 01 December 2006 (has links) Neste trabalho realizamos um programa de seqüenciamento em larga escala de cDNAs obtidos de bibliotecas construídas a partir de mRNA de células de B. emersonii submetidas ao choque térmico e ao estresse por cádmio. Obtivemos 6350 seqüências expressas (ESTs) de alta qualidade, que representam 2326 seqüências únicas putativas (unigenes) do fungo. Destes unigenes putativos, 1282 genes foram classificados em pelo menos uma das categorias do Consórcio Gene Ontology (GO). A análise do transcriptoma parcial de B. emersonii determinado até o momento permitiu a identificação de 78 unigenes codificando chaperones moleculares de todas as famílias conhecidas. Para avaliarmos a expressão global dos genes em resposta a estresses ambientais, como o choque térmico e o cádmio, realizamos ensaios de microarranjos de DNA nestas condições de estresse. Observamos que em resposta ao choque térmico, B. emersonii induz a expressão de genes que codificam proteínas relacionadas com o enovelamento de proteínas e com a proteólise, o que seria esperado em condições de temperaturas elevadas, assim como genes que codificam proteínas com propriedades antioxidantes, além de proteínas envolvidas no metabolismo de nucleotídeos e no metabolismo de carboidratos. Em resposta ao estresse por cádmio, verificou-se a indução de genes que codificam principalmente proteínas com propriedades antioxidantes, proteínas envolvidas no metabolismo de aminoácidos, proteínas relacionadas com o transporte celular e proteínas envolvidas no enovelamento de proteínas e proteólise. Uma das conseqüências do estresse por cádmio é o aumento do estresse oxidativo e proteínas antioxidantes têm um papel fundamental na resposta a este tipo de estresse. Dentre os genes observados durante o seqüenciamento das ESTs de B. emersonii, observamos dez genes codificando proteínas distintas da família Hsp70. Nove genes hsp70 são expressos em pelo menos um dos estágios do desenvolvimento do fungo e sete apresentam uma indução significativa após o choque térmico. Estes dados sugerem que estes genes desempenham um papel importante durante o desenvolvimento e em resposta ao estresse térmico em B. emersonii. Outro dado interessante obtido neste trabalho foi o enriquecimento de ESTs que continham íntrons em sua seqüência nas bibliotecas de estresse. Portanto, o choque térmico e o estresse por cádmio em B. emersonii diminuem a eficiência de processamento dos íntrons permitindo sua caracterização. O cDNA da proteína Hsp17 foi o que apresentou o maior número de ESTs seqüenciadas nas bibliotecas de estresse. Experimentos de Northern blot indicaram que o gene hsp17 possui um nível de expressão muito baixo durante o ciclo de vida de B. emersonii, no entanto, como esperado sua expressão aumenta drasticamente quando as células de esporulação ou germinação são submetidas a choque térmico. Os níveis da proteína Hsp17 acompanham os níveis do seu mRNA, indicando que o controle da expressão do gene hsp17 deve ocorrer em nível de transcrição. / In this work we realized a large scale, sequencing program of cDNAs libraries obtained from mRNA of B. emersonii cells submitted to heat shock and cadmium stress. A total of 6350 high quality expressed sequence tags (ESTs) were obtained, representing 2326 unique putative genes (unigenes) of this fungus. From these putative unigenes, 1282 genes were classified at least in one of the three Gene Ontology Consortium (GO) categories. The analysis of the partial transcriptome of B. emersonii, determined until now, allowed the identification of 78 unigenes encoding molecular chaperones of all known protein families. To evaluate the global expression of the genes in response to environmental stresses, such as heat shock and cadmium, DNA microarray assays were performed. We observed that in response to heat shock B. emersonii induces the expreession of genes encoding proteins related to protein folding and proteolysis, as expected under high temperature conditions, as well as genes encoding proteins with antioxidant properties and proteins involved in nucleotide and carbohydrate metabolism. In response to cadmium stress, we mainly verified the induction of genes for proteins with antioxidant properties, proteins involved in amino acid metabolism, proteins related to cellular transport and proteins related to protein folding and proteolysis. One of the consequences of the exposure to cadmium is the increase of oxidative stress, and antioxidant proteins have a fundamental role in the response to this kind of injury. Amongst the genes observed during the B. emersonii EST sequencing program, ten genes encoding distinct proteins from the Hsp70 family were observed. Nine of them are expressed at least in one stage of the fungus development and seven genes presented a significant induction during heat shock treatment. These data suggest that the hsp70 genes perform an important role during development and in response to heat stress in B. emersonii. Another interesting result from this work was the enrichment of ESTs containing introns in the stress libraries. Thus, heat shock and cadmium stress decrease the efficiency of intron processing in B. emersonii, allowing for intron characterization. The cDNA for the Hsp17 protein presented the highest number of ESTs sequenced from the stress libraries. Northern blot experiments indicated that the hsp17 gene is expressed at very low levels throughout the life cycle of B. emersonii, however, as expected its expression increases drastically when sporulation or germination cells are submitted to heat shock. Hsp17 protein levels accompany its mRNA levels, indicating that the control of expression of the hsp17 gene occurs at a transcriptional level. Cádmio Cadmium Chaperones moleculares Choque térmico DNA microarrays EST EST Heat shock Microarranjos de DNA Molecular chaperones
273	A CryAB Interactome Reveals Clientele Specificity and Dysfunction of Mutants Associated with Human Disease Hoopes, Whitney Katherine 01 November 2016 (has links) Small Heat Shock Proteins (sHSP) are critical molecular chaperones that function to maintain protein homeostasis (proteostasis) and prevent the aggregation of other proteins during cellular stress. Any disruption in the process of proteostasis can lead to prevalent diseases ranging from cancer and cataract to cardiovascular and Alzheimer's disease. CryAB (αB-crystallin, HspB5) is one of ten known human sHSP that is abundant in the lens, skeletal, and cardiac muscle. This protein is required for cardiac function and muscle cell integrity. When the cell experiences physiological stress, including heat shock, CryAB moves to the cytoskeleton to act as a chaperone and prevent aggregation of its protein clientele. This research is designed to investigate the molecular role of CryAB in cell proteostasis through the identification of putative protein clientele and chaperone activity analysis. We have identified over twenty CryAB-binding partners through combined yeast two-hybrid (Y2H) and co-purification approaches, including interactions with myofibril proteins. Previously reported disease-associated CryAB missense variants were analyzed in comparison to wild type CryAB through Y2H binding assays. The characterization of the similarities and differences in binding specificities of these variants provide a foundation to better understand the chaperone pathways of CryAB and how these changes in molecular function result in the development of disparate diseases such as cataract, cancer, and various myopathies. small Heat Shock Proteins (sHSP) HspB5 (αB-crystallin CryAB) molecular chaperones proteostasis R120G HspB2 Microbiology
274	Continuous growth and heat shock of thermoacidophilic Sulfolobus in a triple-stage chemostat for overexpression and isolation of chaperonin Seipel, Kurtz 01 May 2012 (has links) No description available. Chaperonin Chemostat Continuous Culture Heat Shock Protein Sulfolobus Thermoacidophile Chemical Engineering
275	Characterisation of alternative sigma factors and the heat shock rsponse in Neisseria gonorrhoeae Laskos, Lina 1973- January 2003 (has links) Abstract not available Heat shock proteins Neisseria gonorrhoeae Bacteria Genetic regulation Stress (Physiology) Transcription factors
276	Molecular mechanism of cancer related to urokinase receptor: DNAzyme-mediated inhibition and Novel protein interactors of urokinase receptor Lin, Zhen, St George Clinical School, UNSW January 2007 (has links) The urokinase receptor (uPAR) plays a central role in metastatic process. It???s evident uPAR is overexpressed across a variety of tumour cells and leads to the increased aggressiveness and poor prognosis of cancer. Inhibition of uPAR expression can block metastatic potential in many tumours. In addition, besides uPA, there are several other proteins which have been confirmed to interact with uPAR, such as vitronectin and integrins. These interactions also contribute to signal transduction and the functions of uPAR complex. Therefore, downregulation of uPAR expression by targeting uPAR mRNA or protein, or by regulating the uPAR partners would be potential therapeutic strategies for prevention of cancer metastasis. There are two main aspects contained in this thesis. Firstly, three specific DNAzymes targeting uPAR mRNA were designed to downregulate uPAR expression in vitro and their effects to decrease cancer cell invasion studied in a human osteosarcoma cell line Saos-2. The results showed that two of them (Dz483 and Dz720) cleaved uPAR transcript in vitro with high efficacy and specificity and the Dz720 inhibited uPAR protein levels by 55% in Saos-2 cells. Besides, the Dz720 significantly suppressed Saos-2 cell invasion using an in vitro matrigel assay. Secondly, two potential uPAR partners from yeast two-hybrid screening, a heat shock protein MRJ and an anti-apoptosis protein HAX-1, were characterised and their functions binding with uPAR investigated. The interactions were confirmed by co-immunoprecipitation, GST-pull down assay and confocal microscopy in cancer cells. In addition, there was a 50% increase in cell adhesion after transfection with MRJ. This increase in adhesion is dependent on the uPAR/full length MRJ interaction as cells transfected with the mutant construct containing only N-terminal region or C-terminal region of MRJ had no increase in cell adhesion. The observed increase in adhesion to vitronectin by MRJ was also blocked by an anti-uPAR domain I antibody suggesting that the induced adhesion is at least in part contributed by uPAR on the cell surface. Together, the identification of both MRJ and HAX-1 as uPAR interactors provides further insight into the intricate relationship between uPAR and other proteins which may develop potential approaches for cancer therapy. Urokinase receptor. DNAzyme. Heat shock protein MRJ. HAX-1. Protein interaction. Inhibition.
277	The world according to mast cells the role of Kit in normal and neoplastic canine mast cells / Lin, Tzu-yin, January 2007 (has links) Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 199-227).
278	Modulation of Extracellular Heat Shock Protein 70 Levels in Rainbow Trout Faught, Leslie Erin January 2013 (has links) At the cellular level, the stress response involves the synthesis of a highly conserved family of heat shock proteins (Hsps). These proteins are essential for maintenance of cellular homeostasis, both in times of stress and in normal cell functioning. Some of the most abundant forms of Hsps in the cell are members of the 70 kDa family. Intracellular heat shock protein 70 (Hsp70) expression in response to proteotoxicity is a highly conserved cellular stress response, but little is known about the role of extracellular Hsp70 (eHsp70) in fish. In order to begin characterizing eHsp70 in fish, the hypothesis that an acute stressor will elevate plasma Hsp70 levels in rainbow trout (Oncorhynchus mykiss) was tested. Subsequent in vitro studies examined whether eHsp70 level was modulated by cortisol and if this involved the action of the glucocorticoid receptor (GR), a ligand-activated transcription factor. The effect of cortisol on the eHsp70 response is important to consider because this steroid is elevated as a result of stressor exposure to allow for short-term allocation of energy stores to cope with stress. Cortisol is the primary corticosteroid in fish and exerts its main effects by binding to either GR or mineralocorticoid receptors (MR). Furthermore, eHsp70 has been previously implicated as having important immunoregulatory roles in mammalian models, but nothing has yet been reported in fish. To this end, a hypothesis tested here was that eHsp70 levels will increase after exposure to the bacterial endotoxin lipopolysaccharide (LPS), and that this response is modulated by cortisol. Finally, research on the effects of exogenous Hsp70 has not been reported in lower vertebrates; however, the relevance of this protein in intercellular signaling, especially in regards to immune regulation, is gaining increasing importance in mammalian models. Therefore, an experiment to determine whether Hsp70 would elicit upregulation of key immunoregulatory cytokines was also conducted. To accurately measure the low levels of Hsp70 in the plasma, a competitive antibody-capture enzyme-linked immunosorbent assay (ELISA) was developed. In the in vivo study, fish exposed to an acute heat shock (1h at 10°C above ambient temperature) exhibited a significant elevation in red blood cell Hsp70 levels over a 24 h period. There was also a significant increase in plasma Hsp70 levels at 4 h, but not at 24 h post-heat shock. To more specifically determine how cortisol affected the release of Hsp70, in vitro studies using primary cultures of hepatocytes demonstrated that cortisol significantly decreased eHsp70 levels in the medium at 24 h when compared with untreated controls, and this response was abolished in the presence of a GR antagonist, mifepristone (RU486). This result for the first time established a link between cortisol signaling and eHsp70 release in any animal model. When hepatocytes were exposed to LPS in vitro, eHsp70 levels were significantly lower in the LPS (30 µg/ml) group; however, heat shock abolished this effect at 24 h. Though eHsp70 levels in the heat shocked hepatocytes treated with low-dose LPS (10 µg/ml) was similar to untreated control levels, high-dose LPS treated hepatocytes showed significant elevation of eHsp70 levels above the low dose group. The ability of LPS to modulate eHsp70 release was not observed to be further regulated by cortisol. While this work suggests the modulation of eHsp70 by LPS, the physiological role remains to be elucidated. Finally when hepatocytes were exposed to exogenous Hsp70, there was no effect on key immunoregulatory genes (IL-1β and IL-8) transcript levels; however, the effect of this protein remains to be tested using other cell systems, including immune cells in fish. Overall, eHsp70 concentration was measured in trout plasma using a competitive ELISA and demonstrates for the first time that stressor exposure affects plasma eHsp70 levels in fish. Furthermore, cortisol, the primary corticosteroid in teleosts, modulates eHsp70 release in trout hepatocytes and this is action is mediated by GR signaling. Also, while trout hepatocytes secrete eHsp70 in response to endotoxin shock, a role for eHsp70 in eliciting an immune response is not clear in lower vertebrates. Taken together the results from this study suggest a role for eHsp70 in acute stress adaptation in fish, but the target tissues involved and the physiological responses remain to be elucidated. Further work on the effects of eHsp70 on target tissues effects, and the mechanisms involved, may have important implications in our understanding of the role of this stress protein in cell signaling and stress adaptation in fish. extracellular heat shock protein 70 cellular stress response cortisol ELISA Biology
279	Elucidation of the Protective Mechanism of α Crystallin B in Cardiomyocytes Chis, Roxana 21 March 2012 (has links) α-Crystallin B (cryAB) is the most abundant small heat shock protein in cardiomyocytes (CMs), where it has been shown to have potent anti-apoptotic properties. The mechanism by which cryAB prevents apoptosis has not been fully characterized. Therefore, I was interested in elucidating its protective mechanism in CMs. I identified its sub-cellular localization and its binding interactors following H2O2 exposure. I found that cryAB is found in the cytosol under control conditions and that following H2O2 exposure it becomes phosphorylated and translocates to the mitochondria. CryAB silencing resulted in increased apoptosis levels in CMs. Co-immunoprecipitation revealed an apparent increased interaction of cryAB and PcryAB with mitochondrial VDAC, caspase 12 and uncleaved caspase 3 in stressed hearts relative to controls. These results suggest that the cardio-protective effects of cryAB are mediated by its translocation to the mitochondria and its interaction with VDAC, caspase 12 and caspase 3 following exposure to H2O2. crystallin reactive oxygen species cardiac cell protection mitochondria heat shock protein 0719
280	Elucidation of the Protective Mechanism of α Crystallin B in Cardiomyocytes Chis, Roxana 21 March 2012 (has links) α-Crystallin B (cryAB) is the most abundant small heat shock protein in cardiomyocytes (CMs), where it has been shown to have potent anti-apoptotic properties. The mechanism by which cryAB prevents apoptosis has not been fully characterized. Therefore, I was interested in elucidating its protective mechanism in CMs. I identified its sub-cellular localization and its binding interactors following H2O2 exposure. I found that cryAB is found in the cytosol under control conditions and that following H2O2 exposure it becomes phosphorylated and translocates to the mitochondria. CryAB silencing resulted in increased apoptosis levels in CMs. Co-immunoprecipitation revealed an apparent increased interaction of cryAB and PcryAB with mitochondrial VDAC, caspase 12 and uncleaved caspase 3 in stressed hearts relative to controls. These results suggest that the cardio-protective effects of cryAB are mediated by its translocation to the mitochondria and its interaction with VDAC, caspase 12 and caspase 3 following exposure to H2O2. crystallin reactive oxygen species cardiac cell protection mitochondria heat shock protein 0719

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