Global analysis of FSH‐regulated gene expression and histone modification in mouse granulosa cells

生物 H3K4me3 染色质免疫沉淀 转录组 组蛋白 基因表达 基因 分子生物学 基因表达谱 遗传学 发起人
作者
Ejimedo Madogwe,Deepak K. Tanwar,Milena Taibi,Yasmin Schuermann,A. St-Yves,Raj Duggavathi
出处
期刊:Molecular Reproduction and Development [Wiley]
卷期号:87 (10): 1082-1096 被引量:8
标识
DOI:10.1002/mrd.23419
摘要

Abstract Follicle‐stimulating hormone (FSH) regulates ovarian follicular development through a specific gene expression program. We analyzed FSH‐regulated transcriptome and histone modification in granulosa cells during follicular development. We used super‐stimulated immature mice and collected granulosa cells before and 48 h after stimulation with equine chorionic gonadotropin (eCG). We profiled the transcriptome using RNA‐sequencing ( N = 3/time‐point) and genome‐wide trimethylation of lysine 4 of histone H3 (H3K4me3; an active transcription marker) using chromatin immunoprecipitation and sequencing (ChIP‐Seq; N = 2/time‐point). Across the mouse genome, 14,583 genes had an associated H3K4me3 peak and 63–66% of these peaks were observed within ≤1 kb promoter region. There were 72 genes with differential H3K4me3 modification at 48 h eCG (absolute log fold change > 1; false discovery rate [FDR] < 0.05) relative to 0 h eCG. Transcriptome data analysis showed 1463 differentially expressed genes at 48 h eCG (absolute log fold change > 1; FDR < 0.05). Among the 20 genes with differential expression and altered H3K4me3 modification, Lhcgr had higher H3K4me3 abundance and expression, while Nrip2 had lower H3K4me3 abundance and expression. Using ChIP‐qPCR, we showed that FSH‐regulated expression of Lhcgr , Cyp19a1 , Nppc , and Nrip2 through regulation of H3K4me3 at their respective promoters. Transcript isoform analysis using Kallisto‐Sleuth tool revealed 875 differentially expressed transcripts at 48 h eCG ( b > 1; FDR < 0.05). Pathway analysis of RNA‐seq data demonstrated that TGF‐β signaling and steroidogenic pathways were regulated at 48 h eCG. Thus, FSH regulates gene expression in granulosa cells through multiple mechanisms namely altered H3K4me3 modification and inducing specific transcripts. These data form the basis for further studies investigating how these specific mechanisms regulate granulosa cell functions.

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