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ZAK activation at the collided ribosome

Vienna Huso, Shuangshuang Niu, Marco A. Catipovic, James A. Saba, Timo Denk, Eugene Park, Jingdong Cheng, Otto Berninghausen, Thomas Becker, Rachel Green, Roland Beckmann

2025Nature14 citationsDOIOpen Access PDF

Abstract

. Despite the critical role of ZAK during cellular stress, a mechanistic and structural understanding of ZAK-ribosome interactions and how these lead to activation remain elusive. Here we combine biochemistry and cryo-electron microscopy to discover distinct ZAK-ribosome interactions required for constitutive recruitment and for activation. We find that upon induction of ribosome collisions, interactions between ZAK and the ribosomal protein RACK1 enable its activation by dimerization of its SAM domains at the collision interface. Furthermore, we discover how this process is negatively regulated by the ribosome-binding protein SERBP1 to prevent constitutive ZAK activation. Characterization of novel SAM variants as well as a known pathogenic variant of the SAM domain of ZAK supports a key role of the SAM domain in regulating kinase activity on and off the ribosome, with some mutants bypassing the ribosome requirement for ZAK activation. Collectively, our data provide a mechanistic blueprint of the kinase activity of ZAK at the collided ribosome interface.

Topics & Concepts

Cell biologyRibosomeTranslation (biology)PhosphorylationEIF4EBiologyKinaseMutantChemistryProtein kinase AProtein biosynthesisIntegrated stress responseComputational biologyEukaryotic RibosomeRibosomal proteinUbiquitinp38 mitogen-activated protein kinasesEukaryotic translationProtein domainProtein kinase domainDomain (mathematical analysis)Eukaryotic initiation factorRibosomal RNAViral Infections and Immunology ResearchRNA and protein synthesis mechanismsMelanoma and MAPK Pathways