Lactylation-driven FTO targets CDK2 to aggravate microvascular anomalies in diabetic retinopathy.
Xue ChenYing WangJia-Nan WangYi-Chen ZhangYe-Ran ZhangRu-Xu SunBing QinYuan-Xin DaiHong-Jing ZhuJin-Xiang ZhaoWei-Wei ZhangJiang-Dong JiSong-Tao YuanQun-Dong ShenQing-Huai LiuPublished in: EMBO molecular medicine (2024)
Diabetic retinopathy (DR) is a leading cause of irreversible vision loss in working-age populations. Fat mass and obesity-associated protein (FTO) is an N 6 -methyladenosine (m 6 A) demethylase that demethylates RNAs involved in energy homeostasis, though its influence on DR is not well studied. Herein, we detected elevated FTO expression in vitreous fibrovascular membranes of patients with proliferative DR. FTO promoted cell cycle progression and tip cell formation of endothelial cells (ECs) to facilitate angiogenesis in vitro, in mice, and in zebrafish. FTO also regulated EC-pericyte crosstalk to trigger diabetic microvascular leakage, and mediated EC-microglia interactions to induce retinal inflammation and neurodegeneration in vivo and in vitro. Mechanistically, FTO affected EC features via modulating CDK2 mRNA stability in an m 6 A-YTHDF2-dependent manner. FTO up-regulation under diabetic conditions was driven by lactate-mediated histone lactylation. FB23-2, an inhibitor to FTO's m 6 A demethylase activity, suppressed angiogenic phenotypes in vitro. To allow for systemic administration, we developed a nanoplatform encapsulating FB23-2 and confirmed its targeting and therapeutic efficiency in mice. Collectively, our study demonstrates that FTO is important for EC function and retinal homeostasis in DR, and warrants further investigation as a therapeutic target for DR patients.
Keyphrases
- diabetic retinopathy
- cell cycle
- optical coherence tomography
- endothelial cells
- editorial comment
- type diabetes
- end stage renal disease
- cell proliferation
- high fat diet induced
- chronic kidney disease
- newly diagnosed
- metabolic syndrome
- inflammatory response
- adipose tissue
- ejection fraction
- poor prognosis
- insulin resistance
- stem cells
- signaling pathway
- weight loss
- peritoneal dialysis
- prognostic factors
- binding protein
- skeletal muscle
- cell therapy
- drug induced