The WNK-OXSR1 osmosensing pathway mediates intestinal regeneration via Hippo-YAP signaling
Heming Cao, Xiawei Huang, Xiaobing Jiang, Jingrong Deng, Jiahui Wang, Chengfang Wu, Minhuang Hu, Bei Zeng, Zhihao Hu, Huimin Pan, Yuxia Yang, Kewei Zheng, Rui Shen, Mingqing Zhang, Bo Liu
Journal:EMBO JOURNAL
IF:8.3
DOI:10.1038/s44318-026-00738-8
PMID:41851502
Published:2026-03-18
research field:分子生物学细胞生物学胃肠病学再生医学信号转导
Abstract
Animals activate regenerative processes to repair injuries and restore homeostasis following tissue damage. A central question in regeneration is how damage signals are sensed and translated into regenerative growth. Tissue injuries lead to the release of intracellular contents and bodily fluids and disturb the osmotic balance. However, the role of osmolarity in regeneration remains largely unexplored. Using Drosophila and mouse intestine, as well as samples from inflammatory bowel disease (IBD) patients, we identify a key role for the osmolarity-sensing WNK-OXSR1 kinase cascade in intestinal regeneration. Mechanistically, OXSR1 phosphorylates the RhoB GTPase at threonine 37 upon intestinal injury, thereby disrupting its interaction with ARHGAP17 and increasing the levels of GTP-bound RhoB. RhoB activation in turn leads to enhanced F-actin polymerization and YAP activation, thus promoting tissue regeneration. We further show that pharmacological inhibition of WNK or OXSR1 reduces the oncogenic potential of intestinal regeneration. These findings reveal osmolarity as a critical damage signal in regeneration and position WNK-OXSR1 as a potential therapeutic target for stimulating intestinal repair. How damage signals are sensed and translated into regenerative growth remains incompletely understood. This study identifies injury-induced osmotic changes as an essential damage signal in intestinal regeneration, acting through the WNK-OXSR1 kinase cascade to promote cytoskeletal remodeling and YAP activation. Osmolarity acts as a damage signal in intestinal regeneration that triggers the WNK- OXSR1 kinase cascade, leading to cytoskeletal remodeling and YAP activation.
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