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Quiescent cell re-entry is limited by macroautophagy-induced lysosomal damage

Andrew Murley, Ann Catherine Popovici, Xiaozhou Hu, Anina Lund, Kevin Wickham, Jenni Durieux, Larry Joe, Etai Koronyo, Hanlin Zhang, Naomi R. Genuth, Andrew Dillin

2025Cell21 citationsDOIOpen Access PDF

Abstract

To maintain tissue homeostasis, many cells reside in a quiescent state until prompted to divide. The reactivation of quiescent cells is perturbed with aging and may underlie declining tissue homeostasis and resiliency. The unfolded protein response regulators IRE-1 and XBP-1 are required for the reactivation of quiescent cells in developmentally L1-arrested C. elegans. Utilizing a forward genetic screen in C. elegans, we discovered that macroautophagy targets protein aggregates to lysosomes in quiescent cells, leading to lysosome damage. Genetic inhibition of macroautophagy and stimulation of lysosomes via the overexpression of HLH-30 (TFEB/TFE3) synergistically reduces lysosome damage. Damaged lysosomes require IRE-1/XBP-1 for their repair following prolonged L1 arrest. Protein aggregates are also targeted to lysosomes by macroautophagy in quiescent cultured mammalian cells and are associated with lysosome damage. Thus, lysosome damage is a hallmark of quiescent cells, and limiting lysosome damage by restraining macroautophagy can stimulate their reactivation.

Topics & Concepts

BiologyAutophagyCell biologyLysosomeGeneticsBiochemistryApoptosisEnzymeAutophagy in Disease and TherapyCalcium signaling and nucleotide metabolismCellular transport and secretion