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Department of Pharmacology

 
Author(s): 
Pizzinga, M, Harvey, RF, Garland, GD, Mordue, R, Dezi, V, Ramakrishna, M, Sfakianos, A, Monti, M, Mulroney, TE, Poyry, T, Willis, AE
Abstract: 

Following cell stress, a wide range of molecular pathways are initiated to orchestrate the stress response and enable adaptation to an environmental or intracellular perturbation. The post-transcriptional regulation strategies adopted during the stress response result in a substantial reorganization of gene expression, designed to prepare the cell for either acclimatization or programmed death, depending on the nature and intensity of the stress. Fundamental to the stress response is a rapid repression of global protein synthesis, commonly mediated by phosphorylation of translation initiation factor eIF2α. Recent structural and biochemical information have added unprecedented detail to our understanding of the molecular mechanisms underlying this regulation. During protein synthesis inhibition, the translation of stress-specific mRNAs is nonetheless enhanced, often through the interaction between RNA-binding proteins and specific RNA regulatory elements. Recent studies investigating the unfolded protein response (UPR) provide some important insights into how posttranscriptional events are spatially and temporally fine-tuned in order to elicit the most appropriate response and to coordinate the transition from an early, acute stage into the chronic state of adaptation. Importantly, cancer cells are known to hi-jack adaptive stress response pathways, particularly the UPR, to survive and proliferate in the unfavorable tumor environment. In this review, we consider the implications of recent research into stress-dependent post-transcriptional regulation and make the case for the exploration of the stress response as a strategy to identify novel targets in the development of cancer therapies. This article is categorized under: RNA in Disease and Development > RNA in Disease RNA Evolution and Genomics > RNA and Ribonucleoprotein Evolution Translation > Translation Mechanisms > Translation Regulation.

Publication ID: 
1140097
Published date: 
May 2020
Publication source: 
pubmed
Publication type: 
Journal articles
Journal name: 
Wiley Interdiscip Rev RNA
Publication volume: 
11
Publisher: 
Parent title: 
Edition: 
Publication number: