多组学分析胆管细胞揭示多囊肝病中肝囊肿发生过程中的性别特异性染色质状态动态变化。
Multi-omics profiling of cholangiocytes reveals sex-specific chromatin state dynamics during hepatic cystogenesis in polycystic liver disease.
机构信息
Key Laboratory of Immune Microenvironment and Disease (Ministry of Education), The Province and Ministry Co-sponsored Collaborative Innovation Center for Medical Epigenetics, Department of Biochemistry and Molecular Biology, School of Basic Medical Sciences, Tianjin Institute of Urology, The Second Hospital of Tianjin Medical University, Tianjin Medical University, Tianjin, China.
Department of Pharmacology and Tianjin Key Laboratory of Inflammation Biology, School of Basic Medical Sciences, Tianjin Medical University, Tianjin, China.
出版信息
J Hepatol. 2023 Apr;78(4):754-769. doi: 10.1016/j.jhep.2022.12.033. Epub 2023 Jan 18.
BACKGROUND & AIMS: Cholangiocytes transit from quiescence to hyperproliferation during cystogenesis in polycystic liver disease (PLD), the severity of which displays prominent sex differences. Epigenetic regulation plays important roles in cell state transition. We aimed to investigate the sex-specific epigenetic basis of hepatic cystogenesis and to develop therapeutic strategies targeting epigenetic modifications for PLD treatment.
METHODS
Normal and cystic primary cholangiocytes were isolated from wild-type and PLD mice of both sexes. Chromatin states were characterized by analyzing chromatin accessibility (ATAC sequencing) and multiple histone modifications (chromatin immunoprecipitation sequencing). Differential gene expression was determined by transcriptomic analysis (RNA sequencing). Pharmacologic inhibition of epigenetic modifying enzymes was undertaken in PLD model mice.
RESULTS
Through genome-wide profiling of chromatin dynamics, we revealed a profound increase of global chromatin accessibility during cystogenesis in both male and female PLD cholangiocytes. We identified a switch from H3K9me3 to H3K9ac on cis-regulatory DNA elements of cyst-associated genes and showed that inhibition of H3K9ac acetyltransferase or H3K9me3 demethylase slowed cyst growth in male, but not female, PLD mice. In contrast, we found that H3K27ac was specifically increased in female PLD mice and that genes associated with H3K27ac-gained regions were enriched for cyst-related pathways. In an integrated epigenomic and transcriptomic analysis, we identified an estrogen receptor alpha-centered transcription factor network associated with the H3K27ac-regulated cystogenic gene expression program in female PLD mice.
CONCLUSIONS
Our findings highlight the multi-layered sex-specific epigenetic dynamics underlying cholangiocyte state transition and reveal a potential epigenetic therapeutic strategy for male PLD patients.
IMPACT AND IMPLICATIONS
In the present study, we elucidate a sex-specific epigenetic mechanism underlying the cholangiocyte state transition during hepatic cystogenesis and identify epigenetic drugs that effectively slow cyst growth in male PLD mice. These findings underscore the importance of sex difference in the pathogenesis of PLD and may guide researchers and physicians to develop sex-specific personalized approaches for PLD treatment.
背景与目的
在多囊性肝病(PLD)中,胆管细胞从静止状态过渡到增生状态,导致肝囊肿的形成,且其严重程度表现出明显的性别差异。表观遗传调控在细胞状态转换中起着重要作用。我们旨在研究肝囊肿形成的性别特异性表观遗传基础,并开发针对表观遗传修饰的治疗策略,以治疗 PLD。
方法
从野生型和 PLD 雌雄小鼠中分离正常和囊性原代胆管细胞。通过分析染色质可及性(ATAC 测序)和多种组蛋白修饰(染色质免疫沉淀测序)来描述染色质状态。通过转录组分析(RNA 测序)确定差异基因表达。在 PLD 模型小鼠中进行表观遗传修饰酶的药理学抑制。
结果
通过对染色质动力学的全基因组分析,我们揭示了雌雄 PLD 胆管细胞在囊肿形成过程中全局染色质可及性的显著增加。我们发现,在与囊肿相关基因的顺式调控 DNA 元件上,H3K9me3 向 H3K9ac 的转换,并且抑制 H3K9ac 乙酰转移酶或 H3K9me3 去甲基酶可减缓雄性而非雌性 PLD 小鼠的囊肿生长。相反,我们发现 H3K27ac 特异性增加,并且与 H3K27ac 获得区域相关的基因富集了与囊肿相关的途径。在整合的表观基因组和转录组分析中,我们鉴定了一个雌激素受体α为中心的转录因子网络,该网络与雌性 PLD 小鼠中 H3K27ac 调控的囊肿生成基因表达程序相关。
结论
我们的研究结果强调了胆管细胞状态转换背后的多层次性别特异性表观遗传动态,并揭示了一种针对男性 PLD 患者的潜在表观遗传治疗策略。
意义与影响
在本研究中,我们阐明了肝囊肿形成过程中胆管细胞状态转换的性别特异性表观遗传机制,并鉴定了有效减缓雄性 PLD 小鼠囊肿生长的表观遗传药物。这些发现强调了 PLD 发病机制中性别差异的重要性,并可能为研究人员和医生提供指导,开发针对 PLD 治疗的性别特异性个性化方法。
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