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381	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 Raphaela de Castro Georg 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 Chaperones moleculares Choque térmico EST Microarranjos de DNA Cadmium DNA microarrays EST Heat shock Molecular chaperones
382	Heat shock proteins in Mojave Desert dragonflies Promisel, Carol Juanita 01 January 1994 (has links) Temperature plays a crucial role in the constant interaction between organisms and the environment. It affects development and rates of physiological functions as well as survival of organisms. Dragonflies -- Physiology Heat shock proteins -- Dragonflies Dragonflies -- Physiology effect Developmental genetics Desert Ecology Entomology
383	The effects of 60-Hz electromagnetic fields and teratogens on Drosophila melanogaster embryonic cultures: Analysis of heat shock proteins 23 and 70 Koundakjian, Edmund James 01 January 1997 (has links) No description available. Electromagnetic fields Teratogenic agents Heat shock proteins Drosophila melanogaster Cell and Developmental Biology
384	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. Penã, Mauricio Scavassini 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 Leishmania Amastigote Amastigotes Apoptose Apoptosis Heat shock proteins Proteínas do choque térmico Protozoa Protozoa
385	Roles of Endothelial Cell Heat Shock Protein A12B and β-glucan, a reagent for trained Immunity in the Regulation of Inflammation in Sepsis Tu, Fei 01 August 2020 (has links) Sepsis is dysregulated host immune response to infection causing life-threatening organ dysfunction. Endothelial cell dysfunction and uncontrolled inflammatory responses are two contributors for sepsis-induced mortality. The crosstalk between endothelial and immune cells plays a critical role in the pathophysiology of sepsis. Therefore, understanding the mechanism of interaction between endothelial and immune cells will provide novel information to develop therapeutic strategies for sepsis. Pathogen associated moleculear patterns (PAMPs) and/or damage associated molecular patterns (DAMPs) produced during sepsis, activate endothelial cells to increase the expression of adhesion molecules, attracting immune cell infiltration into the tissues. Uncontrolled inflammatory responses during the early phase of sepsis contribute to organ failure and lethality. Over 100 clinical trials, targeting inflammatory responses in sepsis, have failed in the past three decades. Thereby, developing novel therapeutic strategies for sepsis are urgent. Heat shock protein A12B (HSPA12B), as one member of HSP70 family, predominately expressed in the endothelial cells, plays important roles in many pathophysiological processes. Currently, we observed endothelial cell specific HSPA12B deficiency (HSPA12B-/-) exacerbates mortality in sepsis induced by cecal ligation puncture (CLP). HSPA12B-/- septic mice exhibits increased expressions of adhesion molecule and infiltrated macrophages in the myocardium and activated macrophages in the peritoneal cavity. In vitro studies show that HSPA12B could be secreted from endothelial cells via exosome. HSPA12B carried by exosomes can be uptaken by macrophages to downregulate macrophage NF-kB activation and pro-inflammatory cytokine production. Trained immunity, induced by β-glucan, causes immune memory in innate immune cells, with an altered response towards another challenge. We have found that mice received β-glucan seven days before CLP sepsis exhibit attenuated mortality with decreased pro-inflammatory responses. We found that β-glucan significantly increased the levels of HSPA12B in endothelial cells and endothelial exosomes. β-glucan induced endothelial exosomes markedly suppress macrophage NF-kB activation and pro-inflammatory responses. The current data suggests that HSPA12B plays a novel role in the regulation of immune and inflammatory responses and that HSPA12B could be an important mediator for the crosstalk between endothelial cells and macrophages during sepsis. β-glucan regulates endothelial cell functions and immune/inflammatory responses, thus improving survival outcome in CLP sepsis. Heat Shock Protein A12B Endothelial Cell Macrophage Sepsis Exosomes Inflammation NF-κB Signaling Immunology of Infectious Disease
386	Investigation of the role of HSP70 in the uptake of Granzyme B by Malaria parasite-infected erythrocytes Ramatsui, Lebogang 20 September 2019 (has links) MSc (Biochemistry) / Department of Biochemistry / In 2017 malaria cases were estimated at 219 million and of these 435 000 resulted in death. Malaria is transmitted by female Anopheles mosquitoes which thrive in tropical and sub-tropical areas. Malaria is caused by five species from the genus Plasmodium, namely P. falciparum, P. vivax, P. ovale, P. malariae and P. knowlesi. P. falciparum causes the most severe form of the disease. P. falciparum has a complex life cycle in the human and mosquito hosts exposing the parasite to environmental changes, resulting in upregulation of heat shock proteins (Hsps). These Hsps facilitate protein folding and protein disaggregation. Hsp70 is a molecular chaperone whose function is to facilitate protein folding. P. falciparum Hsp70-x is the only member of this family of proteins that is exported to the erythrocyte cytosol by the parasite. PfHsp70-x has been implicated in the development of malaria pathogenesis. This is largely due to its association with P. falciparum erythrocyte membrane protein 1 (PfEMP1), an important virulent factor that is exposed to the exterior of the infected erythrocyte. In tumour cells, cell surface- bound Hsp70 is known to sensitize the tumour cells to cytolytic attack that is mediated by NK cells. Cell surface bound Hsp70 is thought to recruit NK cells and Granzyme B (GrB) via its 14 amino acid sequence, TKDNNLLGRFELSG, known as the TKD motif. Both PfHsp70-x and human Hsp70 (hHsp70) contain the TKD motif. Thus, this study sought to investigate the role of Hsp70 in facilitating the selective targeting of malaria parasite-infected erythrocytes by GrB. To this end, recombinant hHsp70 and PfHsp70-x were successfully expressed in E. coli and purified. Using slot blot and ELISA, it was observed that both PfHsp70-x and hHsp70 directly interact with GrB. PfHsp70-x showed greater affinity for GrB than hHsp70. In addition, using parasites cultured at the erythrocyte stage it was noted that GrB exhibits potent antiplasmodial activity (IC50 of 0.5μM). In addition, the findings suggest that GrB interacts with both Hsp70s (of parasite and human origin) resident in the infected erythrocyte. This makes GrB a promising antimalarial agent. / NRF Malaria Plasmodium falciparum Heat shock proteins PfHsp70-x 614.532 Malaria Malaria -- Prevention Infection Protozoan -- Immulogical aspects
387	Role proteinů tepelného šoku v patogenezi leukémie / Role of heat shock proteins in the pathogenesis of leukaemia Kopřivová, Olga January 2010 (has links) (Abstract) Some of heat shock proteins (Hsp), for example the inducible form Hsp70, are expressed on the surface of tumour cells. High Hsp expression is reflected in tumour cell features, such as ability to progression, to metastasize and resistance to apoptosis. The question is whether Hsp gene expression correlates with surface expression. The aim of this master thesis is to compare surface and gene expression of Hsp70 and observe the gene expression of some other Hsp proteins (Hsp27, Hsp60, Hsp90 and HspBP1) in leukaemia. The research was carried out on cell lines obtained from leukaemic blasts of patients with acute myeloid leukaemia: UoC-M1, HL-60, OCI/AML3, THP-1, HU-3 and TF-1 that had been cultivated in vitro. Hsp70 surface expression was detected using flow cytometry, and gene expression of each Hsp was studied using real-time RT-PCR. It was found out that high surface expression of Hsp70 did not correlate with gene expression in consequence of negative feedback applied in Hsp expression regulation. Hsp27 gene expression was increased compared to negative (healthy) control on all tumour cell lines, with the highest increase on the THP-1 line. Hsp60 gene expression was increased compared to negative (healthy) control on all tumour cell lines and there were not remarkable differences in...
388	Deep-Tissue Heating as a Therapeutic Intervention to Prevent Skeletal Muscle Atrophy in Humans Hafen, Paul S 01 July 2018 (has links) Skeletal muscle is a highly adaptable tissue that comprises approximately 40% of total body weight while accounting for up to 90% of whole-body oxygen consumption and energy expenditure during exercise. The loss of skeletal muscle protein and subsequent decrease in muscle mass (atrophy) that accompanies disuse results primarily from a decrease in intracellular protein synthesis combined with an increase in proteolytic activity. Interestingly, these processes of skeletal muscle atrophy are amplified by changes in mitochondrial capacity, with evidence suggesting that the maintenance of mitochondria during periods of disuse protects skeletal muscle against atrophy. Remarkably, rodents with denervated muscle are protected against muscle atrophy following whole-body heat stress. The mechanism of protection appears to be tied to the observed increases in heat shock protein (HSP) and PGC-1α, which accompany the heat stress. Without any published observations as to whether such heat-induced protection against muscle atrophy would translate to human muscle, the aim of this project was to determine the extent to which deep tissue heating (via pulsed shortwave diathermy) might provide protection against skeletal muscle atrophy. muscle atrophy human skeletal muscle immobilization heat stress heat shock mitochondrial respiration Life Sciences
389	Endothelial Heat Shock Protein A12B and Yes-associated Protein Cooperatively Promote Angiogenesis Following Myocardial Infarction Fan, Min 01 August 2021 (has links) Heart failure after myocardial infarction (MI) remains the leading cause of mortality among all cardiovascular diseases globally. Angiogenesis plays a critical role in cardiac functional recovery after MI. Heat shock protein A12B (HSPA12B) is predominately expressed in endothelial cells and required for angiogenesis. Yes-associated protein (YAP) has been reported to promote tumor angiogenesis. In the present study, we investigated the cooperative role of HSPA12B and YAP in angiogenesis following myocardial ischemic injury. Endothelial specific deficiency of HSPA12B (eHspa12b-/-) or YAP (eYap-/-) impairs angiogenesis and exacerbates cardiac dysfunction after MI, when compared with wild type (WT) mice. In addition, MI induced angiogenesis and the expression of angiogenic factors (angiopoietin-1, VEGF and VEGFR2) were impaired in both eHspa12b-/- and eYap-/- hearts. MI increased YAP expression and nuclear translocation in WT hearts, but not in eHspa12b-/- myocardium. Similarly, MI also markedly increased HSPA12B expression and nuclear translocation in WT mice but not in eYap-/- hearts. In vitro data shows that overexpression of HSPA12B upregulated hypoxia induced endothelial cell proliferation, migration and angiogenesis. On the contrary, deactivation of YAP by verteporfin attenuates endothelial cell proliferation, migration and angiogenesis after hypoxic challenge. In accordance, silencing of either HSPA12B or YAP suppressed endothelial cell proliferation and angiogenesis promoted by hypoxia. Importantly, YAP inhibition abrogates HSPA12B induced endothelial cell proliferation and angiogenesis. Deficiency of HSPA12B suppresses YAP expression and nuclear translocation following hypoxia while knockdown of YAP attenuates hypoxia stimulated HSPA12B expression and nuclear translocation. Mechanistically, hypoxia induced an interaction between endothelial HSPA12B and YAP. Of note, ChIP assay shows that HSPA12B is a target gene of YAP/transcriptional enhanced associated domain 4 (TEAD4). Further investigation indicates that HSPA12B also acts as a co-activator in YAP associated proliferation and angiogenesis. HSPA12B can stabilize YAP and prevent YAP from degradation. Therefore, our results delineated a previously unrecognized role of endothelial HSPA12B as a novel target and co-activator for YAP/TEAD4 and cooperates with YAP to promote endothelial cell proliferation, migration and angiogenesis following myocardial ischemia. Myocardial Infarction Angiogenesis Endothelial Cells Heat Shock Protein A12B Yes-associated Protein Medicine and Health Sciences
390	HSPA12A Unstabilizes CD147 to Inhibit Lactate Export and Migration in Human Renal Cell Carcinoma Min, Xinxu, Zhang, Xiaojin, Li, Yunfan, Cao, Xiaofei, Cheng, Hao, Li, Yuehua, Li, Chuanfu, Kong, Qiuyue, Mao, Qian, Peng, Peipei, Ni, Yan, Li, Jingjin, Duan, Yulian, Liu, Li, Ding, Zhengnian 01 January 2020 (has links) This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/). See http://ivyspring.com/terms for full terms and conditions. Background: Metastasis accounts for 90% of cancer-associated mortality in patients with renal cell carcinoma (RCC). However, the clinical management of RCC metastasis is challenging. Lactate export is known to play an important role in cancer cell migration. This study investigated the role of heat shock protein A12A (HSPA12A) in RCC migration. Methods: HSPA12A expression was examined in 82 pairs of matched RCC tumors and corresponding normal kidney tissues from patients by immunoblotting and immunofluorescence analyses. The proliferation of RCC cells was analyzed using MTT and EdU incorporation assays. The migration of RCC cells was evaluated by wound healing and Transwell migration assays. Extracellular acidification was examined using Seahorse technology. Protein stability was determined following treatment with protein synthesis inhibitor cycloheximide and proteasome inhibitor MG132. Mass spectrometry, immunoprecipitation, and immunoblotting were employed to examine protein-protein interactions. Results: RCC tumors from patients showed downregulation of HSPA12A, which was associated with advanced tumor node metastasis stage. Intriguingly, overexpression of HSPA12A in RCC cells inhibited migration, whereas HSPA12A knockdown had the opposite effect. Lactate export, glycolysis rate, and CD147 protein abundance were also inhibited by HSPA12A overexpression but promoted by HSPA12A knockdown. An interaction of HSPA12A with HRD1 ubiquitin E3 ligase was detected in RCC cells. Further studies demonstrated that CD147 ubiquitination and proteasomal degradation were promoted by HSPA12A overexpression whereas inhibited by HSPA12A knockdown. Notably, the HSPA12A overexpression-induced inhibition of lactate export and migration were abolished by CD147 overexpression. Conclusion: Human RCC shows downregulation of HSPA12A. Overexpression of HSPA12A in RCC cells unstabilizes CD147 through increasing its ubiquitin-proteasome degradation, thereby inhibits lactate export and glycolysis, and ultimately suppresses RCC cell migration. Our results demonstrate that overexpression of HSPA12A might represent a viable strategy for managing RCC metastasis. cluster of differentiation 147 (CD147) heat shock protein A12A (HSPA12A) lactate migration renal cell carcinoma Surgery

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