Inhibition of H3K14 lactylation promotes diabetic corneal nerve regeneration via Wnt1/beta-catenin signaling

pubmed: wnt1 2026-03-11

Summary:

CONCLUSIONS: Hyperglycemia-driven glycolysis increases lactate-mediated H3K14la at the Wnt1 promoter, repressing Wnt1/β-catenin signaling and impairing corneal nerve regeneration. Targeting lactate metabolism or histone lactylation represents a promising therapeutic strategy for DK.

Link:

https://pubmed.ncbi.nlm.nih.gov/41638550/?utm_source=Other&utm_medium=rss&utm_campaign=None&utm_content=16uwQpOeqFYN8R4TKOtwPy2utpqy9ex2oldalD2yF_fQHv2caq&fc=None&ff=20260311002217&v=2.19.0.post6+133c1fe

From feeds:

Exome » pubmed: wnt1

Authors:

Wenqu Chen, Yuyang Deng, Danling Liao, Jianzhang Hu

Date tagged:

03/11/2026, 00:22

Date published:

02/04/2026, 06:00