动脉夹层和动脉瘤中平滑肌细胞表型改变的表观遗传学诱导。
Epigenetic Induction of Smooth Muscle Cell Phenotypic Alterations in Aortic Aneurysms and Dissections.
机构信息
Division of Cardiothoracic Surgery, Michael E. DeBakey Department of Surgery (A.C., Y.L., C.Z., K.R.R., Y.L., S.X., W.L., H.G.V., L.Z., J.S.C., S.A.L., Y.H.S.), Baylor College of Medicine, Houston, TX.
Department of Cardiovascular Surgery, The Texas Heart Institute, Houston (A.C., Y.L., C.Z., K.R.R., Y.L., W.L., H.G.V., L.Z., J.S.C., S.A.L.).
出版信息
Circulation. 2023 Sep 19;148(12):959-977. doi: 10.1161/CIRCULATIONAHA.123.063332. Epub 2023 Aug 9.
BACKGROUND
Smooth muscle cell (SMC) phenotypic switching has been increasingly detected in aortic aneurysm and dissection (AAD) tissues. However, the diverse SMC phenotypes in AAD tissues and the mechanisms driving SMC phenotypic alterations remain to be identified.
METHODS
We examined the transcriptomic and epigenomic dynamics of aortic SMC phenotypic changes in mice with angiotensin II-induced AAD by using single-cell RNA sequencing and single-cell sequencing assay for transposase-accessible chromatin. SMC phenotypic alteration in aortas from patients with ascending thoracic AAD was examined by using single-cell RNA sequencing analysis.
RESULTS
Single-cell RNA sequencing analysis revealed that aortic stress induced the transition of SMCs from a primary contractile phenotype to proliferative, extracellular matrix-producing, and inflammatory phenotypes. Lineage tracing showed the complete transformation of SMCs to fibroblasts and macrophages. Single-cell sequencing assay for transposase-accessible chromatin analysis indicated that these phenotypic alterations were controlled by chromatin remodeling marked by the reduced chromatin accessibility of contractile genes and the induced chromatin accessibility of genes involved in proliferation, extracellular matrix, and inflammation. IRF3 (interferon regulatory factor 3), a proinflammatory transcription factor activated by cytosolic DNA, was identified as a key driver of the transition of aortic SMCs from a contractile phenotype to an inflammatory phenotype. In cultured SMCs, cytosolic DNA signaled through its sensor STING (stimulator of interferon genes)-TBK1 (tank-binding kinase 1) to activate IRF3, which bound and recruited EZH2 (enhancer of zeste homolog 2) to contractile genes to induce repressive H3K27me3 modification and gene suppression. In contrast, double-stranded DNA-STING-IRF3 signaling induced inflammatory gene expression in SMCs. In mice, the aortic stress-induced transition of SMCs into an inflammatory phenotype was prevented, and SMC populations were preserved. Finally, profound SMC phenotypic alterations toward diverse directions were detected in human ascending thoracic AAD tissues.
CONCLUSIONS
Our study reveals the dynamic epigenetic induction of SMC phenotypic alterations in AAD. DNA damage and cytosolic leakage drive SMCs from a contractile phenotype to an inflammatory phenotype.
背景
平滑肌细胞(SMC)表型转换在主动脉瘤和夹层(AAD)组织中越来越多地被检测到。然而,AAD 组织中不同的 SMC 表型以及驱动 SMC 表型改变的机制仍有待确定。
方法
我们通过单细胞 RNA 测序和单细胞转座酶可及染色质测序分析,研究了血管紧张素 II 诱导的 AAD 小鼠主动脉 SMC 表型变化的转录组和表观基因组动力学。通过单细胞 RNA 测序分析,研究了升主动脉 AAD 患者主动脉 SMC 表型改变。
结果
单细胞 RNA 测序分析显示,主动脉应激诱导 SMC 从原收缩表型向增殖、细胞外基质产生和炎症表型转变。谱系追踪显示 SMC 完全转化为成纤维细胞和巨噬细胞。单细胞转座酶可及染色质测序分析表明,这些表型改变受染色质重塑控制,表现为收缩基因的染色质可及性降低和参与增殖、细胞外基质和炎症的基因的染色质可及性增加。IRF3(干扰素调节因子 3),一种由细胞质 DNA 激活的促炎转录因子,被鉴定为主动脉 SMC 从收缩表型向炎症表型转变的关键驱动因素。在培养的 SMC 中,细胞质 DNA 通过其传感器 STING(干扰素基因刺激物)-TBK1( Tank-binding kinase 1)信号转导激活 IRF3,IRF3 结合并募集 EZH2(增强子结合抑制因子 2)到收缩基因上,诱导抑制性 H3K27me3 修饰和基因抑制。相反,双链 DNA-STING-IRF3 信号在 SMC 中诱导炎症基因表达。在 小鼠中,主动脉应激诱导的 SMC 向炎症表型的转变被阻止,SMC 群体得以保留。最后,在人类升主动脉 AAD 组织中检测到明显的 SMC 表型向不同方向的改变。
结论
本研究揭示了 AAD 中 SMC 表型改变的动态表观遗传诱导。DNA 损伤和细胞质渗漏导致 SMC 从收缩表型转变为炎症表型。
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