Université de Paris, PARCC, Inserm, France (S.K., A.G., M.Y., T.B., P.B., N.B.-N.).
Department of Regenerative Medicine and Cell Biology (L.G., R.A.N.), Medical University of South Carolina, Charleston.
Circ Res. 2021 Mar 5;128(5):e84-e101. doi: 10.1161/CIRCRESAHA.120.317581. Epub 2021 Jan 28.
Mitral valve prolapse (MVP) is a common valvopathy that leads to mitral insufficiency, heart failure, and sudden death. Functional genomic studies in mitral valves are needed to better characterize MVP-associated variants and target genes.
To establish the chromatin accessibility profiles and assess functionality of variants and narrow down target genes at MVP loci.
We mapped the open chromatin regions in nuclei from 11 human pathogenic and 7 nonpathogenic mitral valves by an assay for transposase-accessible chromatin with high-throughput sequencing. Open chromatin peaks were globally similar between pathogenic and nonpathogenic valves. Compared with the heart tissue and cardiac fibroblasts, we found that MV-specific assay for transposase-accessible chromatin with high-throughput sequencing peaks are enriched near genes involved in extracellular matrix organization, chondrocyte differentiation, and connective tissue development. One of the most enriched motifs in MV-specific open chromatin peaks was for the nuclear factor of activated T cells family of TFs (transcription factors) involved in valve endocardial and interstitial cell formation. We also found that MVP-associated variants were significantly enriched (<0.05) in mitral valve open chromatin peaks. Integration of the assay for transposase-accessible chromatin with high-throughput sequencing data with risk loci, extensive functional annotation, and gene reporter assay suggest plausible causal variants for rs2641440 at the locus and rs6723013 at the locus. CRISPR-Cas9 deletion of the sequence including rs6723013 in human fibroblasts correlated with increased expression only for . Circular chromatin conformation capture followed by high-throughput sequencing experiments provided evidence for several target genes, including , , and at the locus and further supported as the most likely target gene on chromosome 2.
Here, we describe unprecedented genome-wide open chromatin profiles from human pathogenic and nonpathogenic MVs and report specific gene regulation profiles, compared with the heart. We also report in vitro functional evidence for potential causal variants and target genes at MVP risk loci involving established and new biological mechanisms. Graphic Abstract: A graphic abstract is available for this article.
二尖瓣脱垂(MVP)是一种常见的瓣膜病,可导致二尖瓣关闭不全、心力衰竭和猝死。需要对二尖瓣进行功能基因组研究,以更好地表征 MVP 相关变体和靶基因。
建立染色质可及性图谱,并评估 MVP 基因座中变体的功能,并缩小靶基因的范围。
我们通过高通量测序的转座酶可及染色质检测,对 11 例人类致病和 7 例非致病二尖瓣的核内开放染色质区域进行了作图。致病和非致病瓣膜之间的开放染色质峰总体相似。与心脏组织和心肌成纤维细胞相比,我们发现 MV 特异性转座酶可及染色质检测的高通量测序峰在细胞外基质组织、软骨细胞分化和结缔组织发育相关基因附近富集。MV 特异性开放染色质峰中最富集的基序之一是核因子激活 T 细胞家族的 TFs(转录因子),它们参与瓣膜心内膜和间质细胞的形成。我们还发现,MVP 相关变体在二尖瓣开放染色质峰中显著富集(<0.05)。转座酶可及染色质检测的高通量测序数据与风险基因座、广泛的功能注释和基因报告基因检测的整合表明,rs2641440 基因座的 rs2641440 变体和 rs6723013 基因座的 rs6723013 变体很可能是因果变体。人类成纤维细胞中包含 rs6723013 序列的 CRISPR-Cas9 缺失与仅 基因表达增加相关。随后的高通量测序实验的环状染色质构象捕获提供了多个靶基因的证据,包括 基因座上的 、 、和 ,并进一步支持 基因是 2 号染色体上最可能的靶基因。
在这里,我们描述了来自人类致病和非致病二尖瓣的前所未有的全基因组开放染色质图谱,并报告了与心脏相比的特定基因调控图谱。我们还报告了 MVP 风险基因座中潜在因果变体和靶基因的体外功能证据,涉及已建立和新的生物学机制。
