Regenerative proliferation of differentiated cells by mTORC 1‐dependent paligenosis

SG Willet, MA Lewis, ZF Miao, D Liu, MD Radyk… - The EMBO …, 2018 - embopress.org
SG Willet, MA Lewis, ZF Miao, D Liu, MD Radyk, RL Cunningham, J Burclaff, G Sibbel…
The EMBO journal, 2018embopress.org
In 1900, Adami speculated that a sequence of context‐independent energetic and structural
changes governed the reversion of differentiated cells to a proliferative, regenerative state.
Accordingly, we show here that differentiated cells in diverse organs become proliferative
via a shared program. Metaplasia‐inducing injury caused both gastric chief and pancreatic
acinar cells to decrease mTORC 1 activity and massively upregulate lysosomes/
autophagosomes; then increase damage associated metaplastic genes such as Sox9; and …
Abstract
In 1900, Adami speculated that a sequence of context‐independent energetic and structural changes governed the reversion of differentiated cells to a proliferative, regenerative state. Accordingly, we show here that differentiated cells in diverse organs become proliferative via a shared program. Metaplasia‐inducing injury caused both gastric chief and pancreatic acinar cells to decrease mTORC1 activity and massively upregulate lysosomes/autophagosomes; then increase damage associated metaplastic genes such as Sox9; and finally reactivate mTORC1 and re‐enter the cell cycle. Blocking mTORC1 permitted autophagy and metaplastic gene induction but blocked cell cycle re‐entry at S‐phase. In kidney and liver regeneration and in human gastric metaplasia, mTORC1 also correlated with proliferation. In lysosome‐defective Gnptab−/− mice, both metaplasia‐associated gene expression changes and mTORC1‐mediated proliferation were deficient in pancreas and stomach. Our findings indicate differentiated cells become proliferative using a sequential program with intervening checkpoints: (i) differentiated cell structure degradation; (ii) metaplasia‐ or progenitor‐associated gene induction; (iii) cell cycle re‐entry. We propose this program, which we term “paligenosis”, is a fundamental process, like apoptosis, available to differentiated cells to fuel regeneration following injury.
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