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Cellular senescence: Neither irreversible nor reversible

Maurice Reimann, Soyoung Lee, Clemens A. Schmitt

2024The Journal of Experimental Medicine108 citationsDOIOpen Access PDF

Abstract

Cellular senescence is a critical stress response program implicated in embryonic development, wound healing, aging, and immunity, and it backs up apoptosis as an ultimate cell-cycle exit mechanism. In analogy to replicative exhaustion of telomere-eroded cells, premature types of senescence-referring to oncogene-, therapy-, or virus-induced senescence-are widely considered irreversible growth arrest states as well. We discuss here that entry into full-featured senescence is not necessarily a permanent endpoint, but dependent on essential maintenance components, potentially transient. Unlike a binary state switch, we view senescence with its extensive epigenomic reorganization, profound cytomorphological remodeling, and distinctive metabolic rewiring rather as a journey toward a full-featured arrest condition of variable strength and depth. Senescence-underlying maintenance-essential molecular mechanisms may allow cell-cycle reentry if not continuously provided. Importantly, senescent cells that resumed proliferation fundamentally differ from those that never entered senescence, and hence would not reflect a reversion but a dynamic progression to a post-senescent state that comes with distinct functional and clinically relevant ramifications.

Topics & Concepts

SenescenceCell biologyBiologyTelomereCell cycle checkpointCell cycleEmbryonic stem cellReversionCellPhenotypeGeneticsGeneTelomeres, Telomerase, and SenescenceRNA Interference and Gene DeliveryGenetics, Aging, and Longevity in Model Organisms
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