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GCN1 couples GCN2 to ribosomal state to initiate amino acid response pathway signaling

Changqian Zhou, Miao Zhang, J. Murray, João A. Paulo, Steven P. Gygi, Sichen Shao, Malcolm Whitman, Tracy Keller

2025Science11 citationsDOI

Abstract

During nutrient deprivation, activation of the protein kinase GCN2 regulates cell survival and metabolic homeostasis. In addition to amino acid stress, GCN2 is activated by a variety of cellular stresses. GCN2 activation has been linked to its association with uncharged tRNAs, specific ribosomal proteins, and conditions of translational arrest, but their relative contribution to activation is unclear. Here, we used in vitro translation to reconstitute GCN2 activation by amino acid stress and compared collided ribosome populations induced by diverse translational stressors. Initiation of GCN2 signaling required the di-ribosome sensor GCN1, which recruits GCN2 to ribosomes in a collision-dependent manner, where GCN2 becomes activated by key ribosomal interactions and stably associated with collided ribosomes. Our findings define the molecular requirements and dynamics of GCN2 activation.

Topics & Concepts

RibosomeRibosomal proteinTranslation (biology)Protein biosynthesisAmino acidCell biologyChemistryBiochemistryRibosomal RNATranslational regulationStringent responseIntegrated stress responseEukaryotic initiation factorKinaseEukaryotic RibosomeBiologyInitiation factorSignal transductionRibosomal protein s6Protein kinase APhosphorylationTransfer RNAMessenger RNA30SeIF2RNA and protein synthesis mechanismsRNA regulation and diseasePARP inhibition in cancer therapy