KDM5B-driven glucose metabolic reprogramming promotes enzalutamide resistance in prostate cancer via the lactate/hnRNPA1 lactylation/AR-V7 axis

下调和上调 脱甲基酶 恩扎鲁胺 重编程 癌症研究 生物 前列腺癌 细胞生物学 代谢途径 组蛋白 表观遗传学 信号转导 体内 小RNA 癌症 HEK 293细胞 转染 机制(生物学) 组蛋白H3
作者
Rui Sun,Yong Huang,Hao He,Qiuchen Li,Linfeng Wang,Gaojie Zhang,Ziling Wei,Yang Cao,Jie Li,Xianmin Wang,Fan Yang,Wenjun Chen,Xiang Li,Jiang Yu,S. Liu,Congfeng Lei,Yu Jiang,y. peng,Huiyi Su,Yingying Gao
出处
期刊:Molecular Cancer [BioMed Central]
卷期号:25 (1)
标识
DOI:10.1186/s12943-026-02602-z
摘要

Resistance to enzalutamide (Enza) in castration-resistant prostate cancer (CRPC) is linked to poor prognosis. While KDM5B is highly expressed in Enza-resistant CRPC, the mechanisms of resistance remain poorly understood. We applied an integrated approach to study KDM5B using bioinformatics analyses of single-cell and multi-omics data, along with in vitro and in vivo validation. We explored mechanisms through lactylation proteomics, CRISPR/Cas9 editing, ChIP, and dual-luciferase reporter assays. KDM5B induces Enza resistance by epigenetically suppressing PTEN, which in turn activates the PI3K/Akt signaling pathway to upregulate PGK1 and drive metabolic reprogramming and lactate production. Lactate acts as a substrate for p300-mediated lactylation of hnRNPA1 at lysine 179 (K179), stabilizing hnRNPA1 by blocking NEDD4L-mediated ubiquitination and promoting AR-V7 splicing. A potential positive feedback loop enhances this effect: KDM5B activates AR, and AR, in turn, increases KDM5B expression. Inhibiting KDM5B or p300 can reverse Enza resistance in vivo. We identify a mechanism linking metabolism, epigenetics, and a KDM5B/AR feedback loop in drug resistance. These findings suggest that multi-target strategies may represent a promising approach to overcome Enza resistance in CRPC. • KDM5B is a histone demethylase that is upregulated in enzalutamide resistant prostate cancer. • KDM5B drives tumor metabolic reprogramming by activating PI3K/Akt pathway through epigenetic inhibition of PTEN, which in turn transcriptionally up-regulating PGK1. • Lactate causes lactylation of lysine at position 179 of hnRNPA1, leading to abnormal splicing of AR and upregulation of AR-V7. • p300/HDAC1/HDAC2 jointly regulate the lactylation process of hnRNPA1. • The ligand-independent AR signaling pathway positively feedback promotes the upregulation of KDM5B expression.
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