1,721,004 research outputs found
THE MITOCHONDRIAL HEAT SHOCK PROTEIN TRAP1 IS INVOLVED IN PROTEINS QUALITY CONTROL IN THE ENDOPLASMIC RETICULUM?
No full textER stress protection in cancer cells: the multifaceted role of the heat shock protein TRAP1
No full textTRAP1 is an HSP90 chaperone, upregulated in human cancers and involved in organelles’ homeostasis and tumor cell metabolism. Indeed, TRAP1 is a key regulator of adaptive responses used by highly proliferative tumors to face the metabolic stress induced by increased demand of protein synthesis and hostile environments. Besides well-characterized roles in prevention of mitochondrial permeability transition pore opening and in regulating mitochondrial respiration, TRAP1 is involved in novel regulatory mechanisms: i) the attenuation of global protein synthesis, ii) the co-translational regulation of protein synthesis and ubiquitination of specific client proteins, and iii) the protection from Endoplasmic Reticulum stress. This provides a crucial role to TRAP1 in maintaining cellular homeostasis through protein quality control, by avoiding the accumulation of damaged or misfolded proteins and, likely, facilitating the synthesis of selective cancer-related proteins. Herein, we summarize how these regulatory mechanisms are part of an integrated network, which enables cancer cells to modulate their metabolism and to face, at the same time, oxidative and metabolic stress, oxygen and nutrient deprivation, increased demand of energy production and macromolecule biosynthesis. The possibility to undertake a new strategy to disrupt such networks of integrated control in cancer cells holds great promise for treatment of human malignancies
Coupling of mRNA translation with mitochondrial functions in cancer cells by TRAP1 chaperone
No full textThe Translation UK meetings covers the whole field of the process of making proteins encoded by the genome, from ribosome structure to translational control of gene expression. In this presentation, it has been shown that, through a translational regulation of mitochondrial proteins at multiple levels, the molecular chaperone TRAP1, a protein exerting key metabolic functions in cancer cells, plays a role in the crosstalk between different metabolic processes
Can whale-watching and whaling co-exist? Tourist perceptions in Iceland
No full textBoth whaling and whale-watching tourism occur in Iceland, but these activities are considered incompatible by many, and previous studies have suggested that whale-watch tourists would boycott whale-watch destinations where whaling takes place. This study assessed the perceptions of and attitudes towards ongoing whaling amongst whale-watch tourists in Iceland. A majority of whale-watching tourists in Iceland did not support whaling and did not think that whale-watching and whaling could exist side by side. However, 31% of respondents were unaware of Iceland's whaling before their visit and most of these indicated that prior knowledge of whaling activities would not have affected their choice of destination. More tourists had tried whale meat than either puffin or guillemot meat, suggesting that whale meat may be more strongly marketed to tourists visiting Iceland. These results suggest that not all tourists would consider boycotting travel to a whaling nation. The whale-watch industry is important to Iceland's economy, but given that the whaling industry can potentially negatively impact upon whale-watching activities, a careful analysis of the compatibility of these two industries is recommended. © Marine Biological Association of the United Kingdom 2014
New insights into TRAP1 pathway
No full textTumor Necrosis Factor Receptor-Associated Protein 1 (TRAP1) is a mitochondrial heat shock protein involved in the protection from DNA damages and apoptosis induced by oxidants and several other stress conditions. Despite the well-characterized role in the regulation of mitochondrial integrity, through the interaction with cyclophilin D, a mitochondrial permeability transition pore regulator, several recent studies contributed to draw a more complex "picture" of the TRAP1 pathway: most of these updated functions arise from the identification of novel specific TRAP1 "client" proteins and from the recent discovery of multiple subcellular localizations/functions for this chaperone. This review briefly highlights some general features of TRAP1, and among others its role in cytoprotection, summarizing many different functions, which contribute to its protective role upon several stress inducers. Of note, particular emphasis is given to the recent findings on the regulation of Endoplasmic Reticulum stress and protein quality control by TRAP1, as well as to its role in regulating calcium homeostasis throughout its client protein Sorcin. Starting from the above observations a preliminary "TRAP1 signature" is provided and a new intriguing and interesting field to explore is discussed. Several questions are still open given the complexity of such mechanisms. However, by translating these recent insights at the molecular and cellular levels into personalized individual anticancer treatments, designing novel strategies based on the simultaneous inhibition of multiple tumor-specific pathways, and contemplating subcellular-targeted approaches aimed at reverting drug resistance and improving antitumor activity the struggle to combat cancer become more successful and closer
Self- association of H1 histones. Relevance of arginine content and possible functional role
No full textSelf-association of histones H1 from calf thymus and from sperm of the marine worm Chaetopterus variopedatus was studied on native and glutaraldehyde cross-linked molecules by PAGE and by salt-induced turbidity measurements. Multiple polymers were generated by native sperm histone H1-like after glutaraldehyde cross-linking while the same treatment on its lysine- or arginine-modified derivatives and on somatic histone H1 failed to induce polymerization. This result suggests the relevance of arginine content in the formation of histone H1-like polymers particularly because Chaetopterus variopedatus and calf thymus histones H1 have similar content of lysine but different K/R ratio (2 and 15, respectively). Salt-induced turbidity experiments confirmed the high tendency of sperm histone H1-like to form oligomers, particularly in the presence of phosphate ions. Native PAGE analysis in the presence of phosphate supported this hypothesis. The reported results suggest that phosphate ions connecting lysine and arginine side chain groups contribute to the interaction of sperm histone H1-like with DNA in chromatin and play a key role in organization and stabilization of the chromatin higher order structures
TRAP1 role in endoplasmic reticulum stress protection favors resistance to anthracyclins in breast carcinoma cells
No full textAdaptation to endoplasmic reticulum (ER) stress through the upregulation of the ER chaperone BiP/Grp78 favors resistance of cancer cells to anthracyclins. We recently demonstrated that the mitochondrial HSP90 chaperone TNF receptor-associated protein 1 (TRAP1) is also localized in the ER, where it is responsible for protection from ER stress and quality control on specific mitochondrial proteins contributing to its anti-apoptotic function and the regulation of the mitochondrial apoptotic pathway. Based on the evidence that Bip/Grp78 and TRAP1 are co-upregulated in about 50% of human breast carcinomas (BCs), and considering that the expression of TRAP1 is critical in favoring resistant phenotypes to different antitumor agents, we hypothesized that ER-associated TRAP1 is also favoring resistance to anthracyclins. Indeed, anthracyclins induce ER stress in BC cells and cross-resistance between ER stress agents and anthracyclins was observed in bortezomib- and anthracyclin-resistant cells. Several lines of evidence suggest a mechanistic link between the ER-stress protecting function of TRAP1 and resistance to anthracyclins: i) ER stress- and anthracyclin-resistant cell lines are characterized by the upregulation of TRAP1; ii) TRAP1 silencing in both drug-resistant cell models restored the sensitivity to bortezomib and anthracyclins; iii) the transfection of a TRAP1 deletion mutant, whose localization is restricted to the ER, in TRAP1 KD cells protected from apoptosis induced by anthracyclins; iv) the disruption of the ER-associated TRAP1/TBP7 pathway by a TBP7 dominant negative deletion mutant re-established drug sensitivity in drug-resistant cells. This process is likely mediated by the ability of TRAP1 to modulate the PERK pathway as TRAP1 KD cells failed to induce the phosphorylation of PERK in response to anthracyclins. Moreover, the downregulation of TRAP1 in combination with ER stress agents produced high cytotoxic effects in BC cells. These results suggest that ER-associated TRAP1 plays a role in protecting tumor cells against DNA damaging agents by modulating the PERK pathway
The heat shock protein TRAP1 is involved in translational control: a novel role in the quality control of mitochondrial proteins.
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