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Relocalization of Translation Termination and Ribosome Recycling Factors to Stress Granules Coincides with Elevated Stop-Codon Readthrough and Reinitiation Rates upon Oxidative Stress.

Desislava S MakeevaClaire L RiggsAnton V BurakovPavel A IvanovArtem S KushchenkoDmitri A BykovVladimir I PopenkoVladimir S PrassolovPavel V IvanovSergey E Dmitriev
Published in: Cells (2023)
Upon oxidative stress, mammalian cells rapidly reprogram their translation. This is accompanied by the formation of stress granules (SGs), cytoplasmic ribonucleoprotein condensates containing untranslated mRNA molecules, RNA-binding proteins, 40S ribosomal subunits, and a set of translation initiation factors. Here we show that arsenite-induced stress causes a dramatic increase in the stop-codon readthrough rate and significantly elevates translation reinitiation levels on uORF-containing and bicistronic mRNAs. We also report the recruitment of translation termination factors eRF1 and eRF3, as well as ribosome recycling and translation reinitiation factors ABCE1, eIF2D, MCT-1, and DENR to SGs upon arsenite treatment. Localization of these factors to SGs may contribute to a rapid resumption of mRNA translation after stress relief and SG disassembly. It may also suggest the presence of post-termination, recycling, or reinitiation complexes in SGs. This new layer of translational control under stress conditions, relying on the altered spatial distribution of translation factors between cellular compartments, is discussed.
Keyphrases
  • oxidative stress
  • dna damage
  • stress induced
  • diabetic rats
  • signaling pathway
  • binding protein
  • high glucose
  • induced apoptosis
  • combination therapy
  • heat shock
  • heat shock protein