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Translation in amino-acid-poor environments is limited by tRNAGln charging

Natalya N. Pavlova, Bryan H. King, Rachel Josselsohn, Sara Violante, Victoria L Macera, Santosha A. Vardhana, Justin R. Cross, Craig B. Thompson

2020eLife73 citationsDOIOpen Access PDF

Abstract

An inadequate supply of amino acids leads to accumulation of uncharged tRNAs, which can bind and activate GCN2 kinase to reduce translation. Here, we show that glutamine-specific tRNAs selectively become uncharged when extracellular amino acid availability is compromised. In contrast, all other tRNAs retain charging of their cognate amino acids in a manner that is dependent upon intact lysosomal function. In addition to GCN2 activation and reduced total translation, the reduced charging of tRNA Gln in amino-acid-deprived cells also leads to specific depletion of proteins containing polyglutamine tracts including core-binding factor α1, mediator subunit 12, transcriptional coactivator CBP and TATA-box binding protein. Treating amino-acid-deprived cells with exogenous glutamine or glutaminase inhibitors restores tRNA Gln charging and the levels of polyglutamine-containing proteins. Together, these results demonstrate that the activation of GCN2 and the translation of polyglutamine-encoding transcripts serve as key sensors of glutamine availability in mammalian cells.

Topics & Concepts

GlutamineTranslation (biology)Amino acidBiochemistryGlutaminaseTransfer RNAMediatorProtein biosynthesisCell biologyProtein subunitBiologyAminoacyl tRNA synthetaseGlutamine amidotransferaseChemistryRNAMessenger RNAGeneRNA modifications and cancerRNA and protein synthesis mechanismsRNA Research and Splicing
Translation in amino-acid-poor environments is limited by tRNAGln charging | Litcius