样本编号	SAMC6503806
外部数据库编号	GSA-Human: HRS2045339
样品名称	PCOS_GCs_1
样本标题	PCOS_GCs_1
样品类型	Human sample
物种名称	Homo sapiens
描述信息	To explore the gene expression in the granulosa cells of PCOS paiteint.
样本属性	*由于样本关联的数据集HRA008051尚未在科技部完成人类遗传资源信息备案，本页面只展示部分样本信息。
发布日期	2025-10-13
项目编号	PRJCA027826
提交者	Hongbo Yang (hongboyang@fudan.edu.cn)
提交单位	Fudan University
提交日期	2026-01-07

样本包含数据信息

资源名称	描述
GSA-Human (1)	-
HRA008051 (Open Access)	Polycystic ovary syndrome (PCOS) is a prevalent endocrine and metabolic disorder among women of reproductive age. While metabolic dysfunction is a central feature of PCOS, the precise mechanisms driving its pathogenesis remain elusive. In this study, we uncover a novel feedback loop involving androgen, PKM2, and histone lactylation in granulosa cells (GCs) that underlies PCOS development. Our findings reveal that PKM2-mediated nuclear translocation triggers histone lactylation modifications on H3K9 and H3K18, leading to alterations in three-dimensional genome organization near crucial androgen synthesis genes such as CYP11A1 and CYP17A1. This cascade establishes a positive feedback loop that amplifies the expression of PCOS-related genes. In conclusion, our study highlights the potential therapeutic value of disrupting the androgen-PKM2-chromatin-conformation feedback loop as a promising strategy for treating PCOS.

资源名称

描述

GSA-Human (1)

HRA008051 (Open Access)

Polycystic ovary syndrome (PCOS) is a prevalent endocrine and metabolic disorder among women of reproductive age. While metabolic dysfunction is a central feature of PCOS, the precise mechanisms driving its pathogenesis remain elusive. In this study, we uncover a novel feedback loop involving androgen, PKM2, and histone lactylation in granulosa cells (GCs) that underlies PCOS development. Our findings reveal that PKM2-mediated nuclear translocation triggers histone lactylation modifications on H3K9 and H3K18, leading to alterations in three-dimensional genome organization near crucial androgen synthesis genes such as CYP11A1 and CYP17A1. This cascade establishes a positive feedback loop that amplifies the expression of PCOS-related genes. In conclusion, our study highlights the potential therapeutic value of disrupting the androgen-PKM2-chromatin-conformation feedback loop as a promising strategy for treating PCOS.