Author:
Mukherjee Rukmini,Hoffmann Marina,Gonzalez Alexis,Bhattacharya Anshu,Kuncha Santosh Kumar,Rathore Rajeshwari,Shin Donghyuk,Colby Thomas,Matic Ivan,Misra Mohit,Dikic Ivan
Abstract
AbstractThe KEAP1–Nrf2 axis is essential for the cellular response against metabolic and oxidative stress. KEAP1 is an adaptor protein of Cullin-3 ubiquitin ligase that controls the cellular levels of Nrf2, a critical transcription factor of several cytoprotective genes. Oxidative stress, defective autophagy and pathogenic infections activate Nrf2 signaling through phosphorylation of the adaptor protein p62, which competes with Nrf2 for binding to KEAP1. Here we show that phosphoribosyl-linked serine ubiquitination of p62 catalyzed by SidE effectors ofLegionella pneumophilacontrols Nrf2 signaling and cell metabolism uponLegionellainfection. Serine ubiquitination of p62 sterically blocks its binding to KEAP1, resulting in Nrf2 ubiquitination and degradation. This reduces Nrf2-dependent antioxidant synthesis in the early phase of infection. Levels of serine ubiquitinated p62 diminish in the later stage of infection allowing the expression of Nrf2-target genes; resulting in a differential regulation of the host metabolome and proteome in a Nrf2 dependent manner.
Publisher
Cold Spring Harbor Laboratory