Abstract
Stress responses are controlled by specialized stress-responsive proteostasis transcription factors that rapidly upregulate protein quality components to re-establish protein homeostasis and safeguard survival. Here we show that the zinc finger transcription factor PQM-1 is crucial for stress survival in response to thermal and oxidative challenges. We provide mechanistic insight into the regulation of PQM-1 during stress that depends on ILS-DAF-16 signaling, as well as phosphorylation on threonine residue 268 that is located within a conserved AKT motif. Our data show that in reproductively mature adults and during well-fed conditions, PQM-1 induction requires DAF-16 and occurs during the recovery period post heat shock. Moreover, PQM-1 co-localizes with DAF-16 in the nucleus during the stress recovery phase. This regulatory dependency on DAF-16 is bypassed under dietary restriction, allowing PQM-1 to promote stress resilience independent of the ILS pathway. During both conditions, PQM-1 is crucial for the upregulation of cytosolic and endoplasmic reticulum stress response genes required for organismal recovery and stress resilience. Our transcriptional and bioinformatic analysis reveals that PQM-1 regulates a distinct set of target genes during the stress recovery phase, suggesting that PQM-1 may be involved in vital secondary wave stress response. Thus, our findings uncover a previously unrecognized mechanism of stress-dependent PQM-1 activation that integrates multiple environmental cues to ensure proteostasis and organismal survival.