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An adaptive stress response that confers cellular resilience to decreased ubiquitination

Liam C. Hunt, Vishwajeeth Pagala, Anna Stephan, Boer Xie, Kiran Kodali, Kanisha Kavdia, Yong‐Dong Wang, Abbas Shirinifard, Michelle Curley, Flávia A. Graça, Yingxue Fu, Suresh Poudel, Yuxin Li, Xusheng Wang, Haiyan Tan, Junmin Peng, Fabio Demontis

2023Nature Communications34 citationsDOIOpen Access PDF

Abstract

Ubiquitination is a post-translational modification initiated by the E1 enzyme UBA1, which transfers ubiquitin to ~35 E2 ubiquitin-conjugating enzymes. While UBA1 loss is cell lethal, it remains unknown how partial reduction in UBA1 activity is endured. Here, we utilize deep-coverage mass spectrometry to define the E1-E2 interactome and to determine the proteins that are modulated by knockdown of UBA1 and of each E2 in human cells. These analyses define the UBA1/E2-sensitive proteome and the E2 specificity in protein modulation. Interestingly, profound adaptations in peroxisomes and other organelles are triggered by decreased ubiquitination. While the cargo receptor PEX5 depends on its mono-ubiquitination for binding to peroxisomal proteins and importing them into peroxisomes, we find that UBA1/E2 knockdown induces the compensatory upregulation of other PEX proteins necessary for PEX5 docking to the peroxisomal membrane. Altogether, this study defines a homeostatic mechanism that sustains peroxisomal protein import in cells with decreased ubiquitination capacity.

Topics & Concepts

UbiquitinPeroxisomeCell biologyUbiquitin ligaseInteractomeUbiquitin-conjugating enzymeGene knockdownDownregulation and upregulationProteomeBiologyDeubiquitinating enzymeUbiquitin-Protein LigasesChemistryBiochemistryReceptorGenePeroxisome Proliferator-Activated ReceptorsUbiquitin and proteasome pathwaysAutophagy in Disease and Therapy
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