Global ETD Search

151	HEAT SHOCK PROTEINS AS NOVEL CANCER THERAPEUTICS: TARGETING THE HALLMARKS OF CANCER LI, CHAO 01 June 2011 (has links) Molecular chaperones, commonly known as heat shock proteins (HSPs), are essential for mammalian cells to maintain homeostasis, and HSPs function by inducing an ATPase-coupled structural change, followed by interactions with diverse co-chaperones and over 200 client proteins implicated in many critical signaling networks. These highly expressed HSPs participate in the onset and progression of several human diseases including cancer, and their connection with tumorigenesis has facilitated research and clinical trials related to targeting HSPs as a novel anti-tumor therapy. The predominant mechanism of chaperone inhibition is through either disruption of the HSP association with client protein or an altered binding state that ultimately leads to proteasome-mediated degradation. Importantly, chaperone inhibition results in the degradation of several client proteins that play critical roles in many of the pathways known as the Hallmarks of Cancer, such as proliferation, angiogenesis, invasion, metastasis, and drug resistance. Here, we discuss: (1) the current knowledge of HSPs, particularly studies related to Hsp90-targeted cancer therapy, (2) the targeting of Hsp90-mediated signaling interactions to prevent emergence of core Hallmarks of Cancer, (3) the recent progression of Hsp90 inhibitors in clinical trials. Finally, we propose combinatorial therapy, additional inhibitor discovery, and location-specific inhibition of HSPs as necessary next steps in chaperone-targeted research relevant to cancer therapy. Heat shock proteins cancer Medical Genetics Medical Sciences Medicine and Health Sciences
152	Salicylic acid mediated potentiation of Hsp70 abates apoptosis resistance in breast cancer cells 19 April 2010 (has links) M.Sc. / Heat shock (HS) proteins and HS transcription factors (HSFs) have been coined as the ‘Achilles Heel’ for cancer therapy, since they have been found to be overexpressed in cancer cells and are required for cell survival during tumour progression and metastasis. Hsp70 and other members of the Hsp family have been shown to inhibit apoptosis at several different stages, contributing to resistance to chemotherapy. NSAIDs, like salicylates and aspirin, are used for the treatment and prevention of cancers such as breast cancer. SA has been shown to enhance HSF-DNA binding and results in the increased expression of heat-induced Hsp70 which is antiapoptotic. We hypothesise that SA treatment can result in the potentiation of Hsp70 in MCF-7 cells further increasing their resistance to apoptosis and thus the aim of this study was to investigate the dose-responsive effects of salicylic acid (SA) in the presence and absence of heat shock on components of the pro and antiapoptotic components of the apoptotic pathway. MCF-7 cells, which naturally overexpress Hsp70, were treated with several doses of SA in the presence and absence of a mild heat shock, followed by analysis of Hsp70 and several pro and antiapoptotic members of intrinsic and extrinsic apoptotic pathways, including Bcl-2, Bax, caspase 6 and 8, JNK, AIF and APAF-1. Induced Hsp70 accumulation by the SA treatments in the presence and absence of heat shock enhanced apoptosis in cells exposed to SA whereas higher concentrations of SA combination with heat shock induced necrosis and a decrease in Hsp70 accumulation in MCF-7 cells. Identification of the effects which specific concentrations of SA in the presence and absence of heat shock had on the apoptotic pathway constituents helped highlight potential pathways by which cell death could occur in MCF-7 cells through the downregulation of Hsp70. It is most likely that MCF-7 cell death is occurring due to the release of reactive oxygen species (ROS) which in turn lead to necrosis or death may be achieved via a cathepsin-B-mediated cell death pathway where both of these possibilities need to be further investigated. Cancer cells Apoptosis Heat shock proteins Salicylic acid Breast cancer treatment
153	Papel das células dendríticas no direcionamento funcional da auto-reatividade celular à HSP60, no sistema humano / The role of human dendritic cells in the functional driving of autoreactivity toward Hsp60, in humans Silva, Adalberto Socorro da 23 October 2007 (has links) Nosso objetivo, neste trabalho, foi verificar se a interação das células dendríticas (DCs) com antígenos da Hsp60 induz um efeito sinérgico no direcionamento de uma resposta imune reguladora, no sistema humano. Células dendríticas humanas maduras (mDC) e imaturas (iDC e iDC IL-10) foram geradas, in vitro, a partir de monócitos de 15 de indivíduos saudáveis. Estas células foram caracterizadas quanto à (i) morfologia, (ii) imunofentotipagem, (iii) produção de citocinas e, (iv) capacidade de estimular aloproliferação. Analisamos a auto-reatividade de linfócitos T (LT) dirigida a diferentes DCs (mDC, iDC e iDC IL-10). Na interação de antígenos da Hsp60 com essas diferentes DCs, verificamos: (i) a capacidade de induzir a produção de citocinas pelas DCs e de inibir a sua produção espontânea, (ii) a auto-reatividade de linfócitos T dirigida a esses antígenos (proliferação e produção de citocinas), (iii) a expressão gênica de um painel de moléculas reguladoras (TGFb, receptor de TGF-b, IL-10 e GATA3) e inflamatórias (IFNg, TNF-a e T-bet) em linfócitos, T no contexto de células dendríticas imaturas. As mDC apresentaram expressão de CD83, maior expressão de CD80, e CD86, assim como induziram respostas alogenéicas mais intensas do que as DCs imaturas. Apesar de haver variabilidade na produção de citocinas, apenas as DC imaturas produziram espontaneamente IL-10, e as DCs maduras produziram mais freqüentemente IFN-g e TNF-a. Analisando o efeito dos antígenos da Hsp60 sobre a produção de citocinas, observamos tanto indução quanto inibição da produção de IFN-g, TNF-a, IL-4 e IL-10 nos três grupos de DC. Porém, a inibição predominou sobre a produção nos três grupos de DC. A auto-reatividade proliferativa de LT dirigida às diferentes DCs foi mais freqüente nas culturas com as DCs maduras (6/10) do que com as DCs imaturas (4/10). Também detectamos produção das citocinas IFN-g, TNF-a, e IL-2 para todos os grupos de células, porém, mais freqüentemente na auto-reatividade contra as DCs maduras. Diversos antígenos da Hsp60 foram capazes de inibir esta auto-reatividade. O peptídeo N7 teve um efeito dominante na inibição da auto-reatividade proliferativa de linfócitos T dirigida às mDCs. A auto-reatividade a antígenos da Hsp60, de um modo geral, foi maior com as DCs imaturas. Diversos antígenos foram capazes de induzir proliferação e produção de citocinas. Todavia, o peptídeo C3 foi imunodominante (6/10) na indução de resposta linfoproliferativa, no contexto das iDCs. A expressão gênica de moléculas reguladoras e inflamatórias foi verificada em linfócitos T, na auto-reatividade a antígenos da Hsp60. Observamos modificações importantes de praticamente todas as moléculas estudadas. Verificamos um predomínio de modificações reguladoras para os genes TGFb, TGF-bR, GATA3, TNF-a e T-bet. O peptídeo N7 induziu modificações dominantemente reguladoras em todas as condições em que ele foi testado. Em conclusão, verificamos que antígenos da Hsp60 têm efeito direto na produção de citocinas das diferentes DCs. Também têm a capacidade de ativar, simultaneamente, em linfócitos T, na interação com as células dendríticas, genes funcionalmente antagônicos. Isto reafirma a diversidade funcional da Hsp60. Ademais, identificamos o peptídeo N7 como potencialmente imunorregulador e o consideramos um candidato a ser testado em protocolos para indução de tolerância. / The aim of the present study was to determine whether the interaction of dendritic cells (DCs) with antigens derived from Hsp60 is capable of inducing a synergistic effect in directing a regulatory immune response, using a human system. Human DCs with mature (mDC) and immature (iDC and iDC IL-10) phenotype were generated in vitro from monocytes obtained from 15 healthy subjects. These cells were characterized according to (i) morphology, (ii) expression of surface markers, (iii) cytokine production, and (iv) ability to stimulate alloproliferation. We analyzed the autoreactivity of T lymphocytes (TL) directed against different DC types (mDC, iDC, and iDC IL-10). For the interaction of Hsp60 antigens with these different DCs, we determined: (i) the ability to induce cytokine production by DCs as well as to inhibit their spontaneous production, (ii) the autoreactivity of TL to these antigens (proliferation and cytokine production), and (iii) gene expression levels of a panel of regulatory (TGFb, TGF-b receptor, IL-10, and GATA3) and inflammatory (IFN-g, TNF-a, and T-bet) molecules by TL when stimulated by mDC. mDC expressed CD83 and showed higher levels of CD80 and CD86 and induced stronger allogeneic responses than immature DCs. Although cytokine production varied, only immature DCs spontaneously produced IL- 10, and mature DCs more frequently produced IFN- and TNF-. An analysis of the effects of Hsp60 antigens on cytokine production showed both induction and inhibition of production of IFN-g, TNF-a, IL-4, and IL-10 by the three sets of DCs; however, inhibition predominated over induction in all three DC groups. The proliferative autoreactivity of LT directed towards the different DCs was more frequent in cultures containing mDCs (6/10) than in those containing immature DCs (4/10). We also detected production of IFN-g, TNFa, and IL-2 by all groups of cells; however this was more frequent in the context of autoreactivity against mDCs. Several Hsp60 antigens were capable of inhibiting this autoreactivity. Peptide N7 had a dominant effect on the inhibition of the proliferative autoreactivity of LT directed towards mDCs. Autoreactivity to Hsp60 antigens was generally greater in cultures containing immature DCs. Several antigens were capable of inducing proliferation and cytokine secretion. However, peptide C3 was immunodominant (6/10) in the induction of a lymphoproliferative response in cultures containing iDCs. Gene expression of regulatory and inflammatory molecules was determined in LTs in the context of autoreactivity to Hsp60 antigens. There were important modifications in virtually all molecules studied. There was a predominance of regulatory-oriented changes in expression of TGFb, TGF-bR, GATA3, TNFa, and T-bet. Peptide N7 induced dominantly regulatory changes in gene expression in all conditions in which it was tested. In conclusion, we have shown that Hsp60 antigens have a direct effect on cytokine production by different DCs. These antigens are also able to activate, during the interaction of LT with DCs, genes that are functionally antagonistic. This finding reinforces the functional diversity of Hsp60. Furthermore, we have identified peptide N7 as potentially immunoregulatory, and consider it as a candidate to be tested in protocols for the induction of tolerance. Células dendríticas Dendritic cells Heat shock proteins Immunological tolerance Peptídeos Peptides Proteínas de choque térmico Tolerância imunológica
154	Neuroprotection during acute hyperthermic stress: Role of the PKG pathway in neurons and glia in the protection of neural function in Drosophila melanogaster Unknown Date (has links) The human brain functions within a narrow range of temperatures and variations outside of this range incur cellular damage and death and, ultimately, death of the organism. Other organisms, like the poikilotherm Drosophila melanogaster, have adapted mechanisms to maintain brain function over wide ranges in temperature and, if exposed to high temperatures where brain function is no longer supported, these animals enter a protective coma to promote survival of the organism once the acute temperature stress is alleviated. This research characterized the role of different neuronal cell types, including glia, in the protection of brain function during acute hyperthermia, specifically looking at two protective pathways: the heat shock protein (HSP) pathway and the cGMP-dependent protein kinase G (PKG) pathway. Whole animal behavioral assays were used in combination with tissue-specific genetic manipulation of protective pathways to determine the specific cell types sufficient to confer protection of neuronal function during acute hyperthermia. Using the neuromuscular junction (NMJ) preparation, calcium imaging techniques were combined with pharmacological and genetic manipulations to test the hypothesis that alterations in ion channel conductance via endogenous mechanisms regulating the cellular response to high temperature stress alter neuronal function. Expression of foraging RNAi to inhibit PKG expression in neurons or glia demonstrated protection of function during acute hyperthermia measured behaviorally through the extension of locomotor function. This extension of function with the tissue-specific inhibition of PKG was also confirmed at the cellular level using the genetically encoded calcium indicator (GECI), GCaMP3, to image calcium dynamics at the NMJ, where preparations expressing foraging RNAi could continue to elicit changes in calcium dynamics in response to stimulation. Over the course of this study, the mechanism underlying a novel glial calcium wave in the peripheral nervous system was characterized in order to elucidate glia’s role in the protection of neuronal function during acute hyperthermia. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection Cyclic GMP-Dependent Protein Kinases Neuroprotection Hyperthermia Heat shock proteins Drosophila melanogaster
155	Identificação de ligantes da metacaspase de Leishmania (Leishmania) amazonensis pela técnica de \"Phage Display\". / Identification of ligands of Leishmania (Leishmania) amazonensis metacaspase using Phage Display. Mauricio Scavassini Penã 23 November 2012 (has links) Durante o ciclo de vida da Leishmania, amastigotas vivem no interior de fagolisossomas de células fagocíticas de hospedeiros vertebrados, enquanto promastigotas vivem no interior do vetor invertebrado. Proteases intracelulares como as caspases são as principais efetoras no processo apoptótico. Metacaspases (MCAs) são formas evolutivas distantes das caspases de metazoários, presentes em protozoários, plantas e fungos, e vistas como potenciais alvos para combate dos parasitas sem prejuízo do hospedeiro. Ligantes e moduladores das metacaspases são até hoje desconhecidos. O Phage Display é uma técnica baseada na expressão de proteínas sintéticas nos capsidíos de fagos, usada com o propósito de selecionar ligantes de proteínas, células ou tecidos. Produzimos a metacaspase recombinante de Leishmania L. amazonensis e aplicamos Phage Display para buscar peptídeos ligantes dessa enzima. Esses peptídeos permitiram identificar potenciais proteínas ligantes da MCA, como quinases e cinesinas, que fornecem informações sobre a regulação e controle de sua atividade. Futuramente testaremos se peptídeos ativadores da MCA poderão induzir apoptose do parasita e serem usados como drogas para o tratamento da leishmaniose. / During its life cycle, Leishmania amastigotes live inside phagolysosomes of phagocytic cells of vertebrate hosts, while promastigotes live inside the invertebrate vector. Intracellular proteases such as caspases are key effectors in the apoptotic process. Metacaspases (MCAs) are distant evolutionary forms of metazoan caspases found in protozoa, plants and fungi, and seen as potential targets to destroy the parasites without damage to the host. Ligands and modulators of metacaspases are so far unknown. Phage Display is a technique based on the expression of synthetic proteins in the phage capsid, and is used for selecting ligands of proteins, cells or tissues. We have produced the recombinant metacaspase of Leishmania (L.) amazonensis and employed Phage Display to find peptide ligands of this enzyme. These peptides led to the identification of potential binding proteins of the MCA, such as kinases and kinesin, which provide information about the regulation and control of MCA´s activity. In the future we will test whether peptide activators of MCA nduce apoptosis of the parasite and can be used as drugs for the treatment of leishmaniasis. Leishmania Amastigotes Apoptose Proteínas do choque térmico Protozoa Leishmania Amastigote Apoptosis Heat shock proteins Protozoa
156	Roles of prolactin in salinity adaptation, Hsp70 expression and apoptosis in sparus sarba. / CUHK electronic theses & dissertations collection January 2007 (has links) Also, the branchial hsp70 levels in fish following chronic salinity acclimation and abrupt hypo-osmotic exposure to 6 ppt were assessed by Western blotting. Upon chronic salinity acclimation, the lowest branchial hsp70 level was found in fish cultured in an iso-osmotic salinity of 12 ppt and the highest was in 50 ppt and 6 ppt environments. Freshwater acclimation resulted in return to lower hsp70 level. The results indicated that iso-osmotic salinity would bring about the least stress level while 50 ppt and 6 ppt were the most stressful salinities to Sparus sarba as indicated by using hsp70 expression as a biomarker of stress. Compared to 50 ppt and 6 ppt, the stress level of fish in fresh water was lower. On the other hand, Sparus sarba exhibited a significant increase in branchial hsp70 level immediately after abrupt hypo-osmotic exposure to 6 ppt when compared with seawater fish sampled at the same time point and increased hsp70 level was sustained throughout the sampling period, indicating the exposure was stressful to the fish. / In the present study, pituitary and serum levels of prolactin in a marine teleost, Sparus sarba, chronically acclimated to various salinities: fresh water (0 ppt), hypo-osmotic (6 ppt), iso-osmotic (12 ppt), normal seawater (33 ppt) and hypersaline (50 ppt) or abruptly exposed to a hypo-osmotic environment of 6 ppt were quantified by the developed peptide-based indirect ELISAs. Progressive increases in pituitary and serum prolactin were found as chronic salinity acclimation progressed from seawater to fresh water. Also, prolactin secretion was immediately induced by abrupt hypo-osmotic exposure to 6 ppt and remained significantly elevated up to 5 days post-exposure to 6 ppt. The results underline the importance of prolactin in marine teleosts kept in fresh water or waters of low salinity. However, there was no significant difference in pituitary prolactin during the course of the abrupt hypo-osmotic exposure experiment. The results may indicate that prolactin might be secreted rapidly from pituitary in large quantities to cope with abrupt exposure to a low-salinity environment. / In the present study, the effects of pharmacological drugs on prolactin levels in pituitary and serum of Sparus sarba were investigated. An increase in prolactin synthesis and release but a decrease in branchial hsp70 expression were found after treatment with sulpiride, a DA-D2 receptor antagonist. In contrast, a reduction in prolactin levels in pituitary and serum but an elevation in hsp70 level in gill were observed following administration of bromocriptine, a DA-D2 receptor agonist. Since hsp70 expression indicates the stress levels, the results of these studies supported the notion that increased prolactin synthesis and release might be related to a reduced stress state and prolactin might have a protective effect on stress tolerance in fish. / Lastly, the role of prolactin in regulating apoptosis in Sparus sarba branchial cells was examined. Successful induction of apoptosis was indicated by an increase in the apoptotic parameter caspase-3 activity in primary cultures of Sparus sarba branchial cells treated with camptothecin, a specific inducer of apoptosis. In this study, prolactin was shown to be anti-apoptotic in Sparus sarba branchial cells as co-treatment with ovine prolactin (oPRL) and camptothecin has been observed to attenuate the elevated caspase-3 activity in gill cell primary cultures. Also, prolactin was found to protect the branchial cells from apoptosis by maintaining the hsp70 level in the cells treated with camptothecin. / The objectives of the present study were to investigate the roles of prolactin in salinity adaptation, hsp70 expression and apoptosis in silver sea bream (Spaurs sarba). Firstly, specific peptide-based indirect ELISAs were developed for pituitary and serum prolactin of Sparus sarba. These assays had been validated by parallelism between the dilution response curves using serially diluted pituitary homogenate and serum sample with the standard curves of the synthetic peptide derived from the amino acid sequence of black sea bream (Acanthopagrus schlegelii ) prolactin. / Ng, Ho Yuen Andus. / "September 2007." / Adviser: N. Y. S. Woo. / Source: Dissertation Abstracts International, Volume: 69-08, Section: B, page: 4567. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2007. / Includes bibliographical references (p. 143-189). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts in English and Chinese. / School code: 1307. Fishes--Adaptation Prolactin--Physiological effect Rhabdosargus sarba--Physiology
157	In vitro study of hormonal regulation of heat shock protein 70 expression in sea bream. / CUHK electronic theses & dissertations collection January 2003 (has links) Zhou Liran. / "June 2003." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2003. / Includes bibliographical references (p. 182-216). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese. Sebastes marinus--Physiology Stress (Physiology) Hormones--Physiological effect Fishes--Physiology
158	Small heat shock protein interactions with in vivo partners Collier, Miranda January 2018 (has links) Small heat-shock proteins (sHsps) are part of a broad cellular sys- tem that functions to maintain a stable proteome under stress. They also perform a variety of regulatory roles at physiological conditions. Despite the multitude of sHsp targets, their interactions with partners are not well understood due to highly dynamical structures. In this thesis, I apply a variety of biophysical and structural approaches to examine distinct interactions made by the abundant human sHsps αβ-crystallin and Hsp27. First, I find that αβ-crystallin binds a cardiac-specific domain of the muscle sarcomere protein titin. A cardiomyopathy-causative variant of αβ-crystallin is shown to disrupt this interaction, with demonstrated implications for tissue biomechanics. Next, I investigate the conformation and unfolding behaviour of another sarcomere-associated protein, filamin C, finding support for the hypothesis that it is mechanosensitive. This leads into an interrogation of the interaction between filamin C and Hsp27, which we find is modulated by phosphorylation of Hsp27. This modulation only manifests during filamin C unfolding, pointing toward a protective chaperoning mode against over-extension during mechanical stress. This finding is bolstered by up-regulation and interaction of both proteins in a mouse model of heart failure. I establish a system for similar studies of a third sHsp, cvHsp, which is muscle-specific and implicated in various myopathies but scantly understood at the molecular level compared to αβ-crystallin and Hsp27. Finally, I probe the stoichiometries and kinetics of complexes formed between αβ-crystallin and Hsp27 themselves, which co-assemble into a highly polydisperse ensemble. This involved the development of a high-resolution native mass spectrometry method for disentangling heterogeneous systems. Together these findings add to our understanding of the roles and mechanisms of ATP-independent molecular chaperones.
159	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
160	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

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