Litcius/Paper detail

Cell cycle–independent integration of stress signals by Xbp1 promotes Non-G1/G0 quiescence entry

Orlando Argüello‐Miranda, Ashley J. Marchand, Taylor Kennedy, Marielle AX Russo, Jungsik Noh

2021The Journal of Cell Biology21 citationsDOIOpen Access PDF

Abstract

Cellular quiescence is a nonproliferative state required for cell survival under stress and during development. In most quiescent cells, proliferation is stopped in a reversible state of low Cdk1 kinase activity; in many organisms, however, quiescent states with high-Cdk1 activity can also be established through still uncharacterized stress or developmental mechanisms. Here, we used a microfluidics approach coupled to phenotypic classification by machine learning to identify stress pathways associated with starvation-triggered high-Cdk1 quiescent states in Saccharomyces cerevisiae. We found that low- and high-Cdk1 quiescent states shared a core of stress-associated processes, such as autophagy, protein aggregation, and mitochondrial up-regulation, but differed in the nuclear accumulation of the stress transcription factors Xbp1, Gln3, and Sfp1. The decision between low- or high-Cdk1 quiescence was controlled by cell cycle-independent accumulation of Xbp1, which acted as a time-delayed integrator of the duration of stress stimuli. Our results show how cell cycle-independent stress-activated factors promote cellular quiescence outside G1/G0.

Topics & Concepts

Cell biologyCell cycleStress (linguistics)CellBiologyGeneticsPhilosophyLinguisticsUbiquitin and proteasome pathwaysGenomics and Chromatin DynamicsNF-κB Signaling Pathways