Adaptive translational pausing is a hallmark of the cellular response to severe environmental stress

Abstract

SummaryMammalian cells have to adapt to environmental challenges that range from mild to severe stress. While the cellular response to mild stress has been widely studied, how cells respond to severe stress remains unclear. We show here that under severe stress conditions, cells induce a transient hibernation-like mechanism that anticipates recovery. We demonstrate that this Adaptive Pausing Response (APR) is a coordinated cellular response that limits ATP supply and consumption though mitochondrial fragmentation and widespread pausing of mRNA translation. This pausing is accomplished by ribosome stalling at translation initiation codons, which keeps mRNAs poised to resume translation upon recovery from severe stress. We further show that recovery from severe stress involves adaptive ISR (Integrated Stress Response) signaling that in turn permits cell cycle progression, resumption of growth, and reversal of mitochondria fragmentation. Our findings indicate that cells can respond to severe stress through the APR, a mechanism that preserves vital elements of cellular function under harsh environmental conditions.