Heat Shock-Induced Accumulation of Translation Elongation and Termination Factors Precedes Assembly of Stress Granules in S. cerevisiae

Tomas Grousl,Petr Pompach,Lenka Senohrabkova,Pavel Ivanov,Lenka Novakova,Jiri Hasek,Renata Slaba,Ivana Frydlova,Ivana Malcova,Mick F Tuite

doi:10.1371/journal.pone.0057083

Tomas Grousl, Petr Pompach + Show 8 more

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https://doi.org/10.1371/journal.pone.0057083

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Journal: PloS one	Publication Date: Feb 25, 2013
Citations: 97	License type: CC BY 4.0

Affiliation: Czech Academy of Sciences, Institute of Microbiology

Abstract

In response to severe environmental stresses eukaryotic cells shut down translation and accumulate components of the translational machinery in stress granules (SGs). Since they contain mainly mRNA, translation initiation factors and 40S ribosomal subunits, they have been referred to as dominant accumulations of stalled translation preinitiation complexes. Here we present evidence that the robust heat shock-induced SGs of S. cerevisiae also contain translation elongation factors eEF3 (Yef3p) and eEF1Bγ2 (Tef4p) as well as translation termination factors eRF1 (Sup45p) and eRF3 (Sup35p). Despite the presence of the yeast prion protein Sup35 in heat shock-induced SGs, we found out that its prion-like domain is not involved in the SGs assembly. Factors eEF3, eEF1Bγ2 and eRF1 were accumulated and co-localized with Dcp2 foci even upon a milder heat shock at 42°C independently of P-bodies scaffolding proteins. We also show that eEF3 accumulations at 42°C determine sites of the genuine SGs assembly at 46°C. We suggest that identification of translation elongation and termination factors in SGs might help to understand the mechanism of the eIF2α factor phosphorylation-independent repression of translation and SGs assembly.

Highlights

Reactivity to environmental changes is a key property of all living organisms that enables them to survive and develop
Component of Heat-induced SGs of S. cerevisiae In our previous work, we described that formation of the robust heat shock-induced stress granules (SGs) is promoted by P-bodies in S. cerevisiae [2]
It is widely accepted that stress granules (SGs) are composed of stalled translation preinitiation complexes (48S) containing mRNA, small ribosomal subunits and some translation initiation factors [15,41]

Summary

Introduction

Reactivity to environmental changes is a key property of all living organisms that enables them to survive and develop. New ribonucleoprotein (RNP) complexes are formed, through which the fate of mRNA molecules and translation machinery components is regulated. It is generally accepted that major SGs components are stalled translation preinitiation complexes (48S), which contain molecules of mRNA, small ribosomal subunits and several translation initiation factors. Besides these, they may contain a few other factors, which could be found either in SGs or P-bodies [2,14]. P-bodies and SGs represent two distinct types of RNP assemblies, which can share some components and can be in spatial contact, but differ in their role in cell adaptation to environmental changes, which is realized via translation regulation and mRNA metabolism

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