Senescence suppresses the integrated stress response and activates a stress-enhanced secretory phenotype

• Published in: bioRxiv : the preprint server for biology
• Main Authors: Payea, Matthew J, Dar, Showkat A, Anerillas, Carlos, Martindale, Jennifer L, Belair, Cedric, Munk, Rachel, Malla, Sulochan, Fan, Jinshui, Piao, Yulan, Yang, Xiaoling, Rehman, Abid, Banskota, Nirad, Abdelmohsen, Kotb, Gorospe, Myriam, Maragkakis, Manolis
• Format: Journal Article
• Language: English
• Published: United States 18.11.2023

Senescence is a state of indefinite cell cycle arrest associated with aging, cancer, and age-related diseases. Here, using label-based mass spectrometry, ribosome profiling and nanopore direct RNA sequencing, we explore the coordinated interaction of translational and transcriptional programs of human cellular senescence. We find that translational deregulation and a corresponding maladaptive integrated stress response (ISR) is a hallmark of senescence that desensitizes senescent cells to stress. We present evidence that senescent cells maintain high levels of eIF2α phosphorylation, typical of ISR activation, but translationally repress production of the stress response transcription factor 4 (ATF4) by ineffective bypass of the inhibitory upstream open reading frames. Surprisingly, ATF4 translation remains inhibited even after acute proteotoxic and amino acid starvation stressors, resulting in a highly diminished stress response. Furthermore, absent a response, stress augments the senescence secretory phenotype, thus intensifying a proinflammatory state that exacerbates disease. Our results reveal a novel mechanism that senescent cells exploit to evade an adaptive stress response and remain viable.