Dual-faced PUMA in CRC: A cytoplasmic autophagy repressor and mitochondrial mitophagy promoter
Meimei Jiang, Mingyi Zhao, Yeying Liu, Jing Liu, Nannan Liu, Jiehan Li, Wunan Mi, Guiyun Jia, Yang Fu, Lingling Zhang, Yingjie Zhang, Feng Wang
Journal:CELLULAR SIGNALLING
IF:4.7
DOI:10.1016/j.cellsig.2026.112363
PMID:41525836
Published:2026-01-10
research field:分子生物学生物化学方法DNA修复基因组学表观遗传学
Abstract
As Bcl-2 family members, PUMA and Bcl-X L played critical roles in mitochondrial apoptosis. However, whether they can regulate autophagy, especially mitophagy, is not understood at all. In this study, we explore the interaction among PUMA and Bcl-X L in different subcellular localizations, and their functions in autophagy and mitophagy respectively. The detailed mechanisms were determined by mitochondria purification, Co-IP, and western blot analysis. Moreover, living cell imaging was performed to determine the occurrence of mitophagy. We found that PUMA inhibited autophagy by interacting with Ulk1 and Beclin1 in the cytoplasm. Six mutants of PUMA were constructed to further study which part is responsible for the interaction, and the BH3 domain shows indispensability. When PUMA moved to mitochondria and formed a complex with Ulk1 and Bcl-X L , which played opposite roles, in promoting mitophagy. During this process, Ser96 of PUMA was indispensable for activating mitophagy. Besides, over-expressed PUMA or Bcl-X L promotes obvious mitophagy, and the real-time detection of lysosome and mitochondria shows fusion. Our results identified new functions and molecular mechanisms of PUMA and Bcl-X L in autophagy and mitophagy, which supplied theoretical bases for CRC therapy and other diseases.
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