Augmentation of Scleral Glycolysis Promotes Myopia Through Histone Lactylation

Overview

Journal Cell Metab

Publisher Cell Press

Specialties Cell Biology
Endocrinology

Date 2024 Jan 17

PMID 38232735

Authors

Xiaolei Lin

Yi Lei

Miaozhen Pan

Changxi Hu

Bintao Xie

Wenjing Wu

Jianzhong Su

Yating Li

Yuhan Tan

Xiaohuan Wei

Zhengbo Xue

Ruiyan Xu

Mengqi Di

Hanyu Deng

Shengcong Liu

Xingxing Yang

Jia Qu

Wei Chen

Xiangtian Zhou

Fei Zhao

Affiliations

Soon will be listed here.

Abstract

Myopia is characterized of maladaptive increases in scleral fibroblast-to-myofibroblast transdifferentiation (FMT). Scleral hypoxia is a significant factor contributing to myopia, but how hypoxia induces myopia is poorly understood. Here, we showed that myopia in mice and guinea pigs was associated with hypoxia-induced increases in key glycolytic enzymes expression and lactate levels in the sclera. Promotion of scleral glycolysis or lactate production induced FMT and myopia; conversely, suppression of glycolysis or lactate production eliminated or inhibited FMT and myopia. Mechanistically, increasing scleral glycolysis-lactate levels promoted FMT and myopia via H3K18la, and this promoted Notch1 expression. Genetic analyses identified a significant enrichment of two genes encoding glycolytic enzymes, ENO2 and TPI1. Moreover, increasing sugar intake in guinea pigs not only induced myopia but also enhanced the response to myopia induction via the scleral glycolysis-lactate-histone lactylation pathway. Collectively, we suggest that scleral glycolysis contributes to myopia by promoting FMT via lactate-induced histone lactylation.

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