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Modulation of p-eIF2? cellular levels and stress granule assembly/disassembly by trehalose.


ABSTRACT: Stress granules (SGs) are an important component of cellular stress response. Compromised assembly of SGs as well as their premature or delayed disassembly affect physiology and survival of cells under stress or during recovery from stress. Consequently, abnormal turnover of SGs has been implicated in the development of various pathologies, including neurodegeneration. We found that pretreatment of cells with a natural disaccharide trehalose, a known autophagy enhancer, delays SG assembly and facilitates their premature post-stress disassembly. Mechanistically, the effect of trehalose on SGs is mediated via the p-eIF2? rather than autophagosome pathway. Trehalose increases pre-stress levels of p-eIF2? and its phosphatase subunits and promotes post-stress translational recovery. Upon prolonged treatment, trehalose impairs basal translation affecting production of transiently expressed proteins. Early translational recovery and SG disassembly induced by trehalose pretreatment can sensitise cells to stress and impair survival. Our study has important implications for the use of trehalose in studies of autophagic clearance of misfolded proteins and for targeting SGs as a possible therapeutic approach in neurodegenerative and other diseases.

SUBMITTER: Dimasi P 

PROVIDER: S-EPMC5343430 | biostudies-literature | 2017 Mar

REPOSITORIES: biostudies-literature

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Modulation of p-eIF2α cellular levels and stress granule assembly/disassembly by trehalose.

Dimasi Pasquale P   Quintiero Annamaria A   Shelkovnikova Tatyana A TA   Buchman Vladimir L VL  

Scientific reports 20170309


Stress granules (SGs) are an important component of cellular stress response. Compromised assembly of SGs as well as their premature or delayed disassembly affect physiology and survival of cells under stress or during recovery from stress. Consequently, abnormal turnover of SGs has been implicated in the development of various pathologies, including neurodegeneration. We found that pretreatment of cells with a natural disaccharide trehalose, a known autophagy enhancer, delays SG assembly and fa  ...[more]

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