Cardiac Fibrosis in the Multi-Omics Era: Implications for Heart Failure

表观遗传学 代谢组学 心脏纤维化 心力衰竭 生物 蛋白质组学 纤维化 组学 计算生物学 生物信息学 个性化医疗 基因组学 心肌纤维化 医学 病理 基因组 内科学 遗传学 基因 基因表达 DNA甲基化
作者
Rachad Ghazal,Min Wang,Duan Liu,Daniel J. Tschumperlin,Naveen L. Pereira
出处
期刊:Circulation Research [Lippincott Williams & Wilkins]
卷期号:136 (7): 773-802 被引量:47
标识
DOI:10.1161/circresaha.124.325402
摘要

Cardiac fibrosis, a hallmark of heart failure and various cardiomyopathies, represents a complex pathological process that has long challenged therapeutic intervention. High-throughput omics technologies have begun revolutionizing our understanding of the molecular mechanisms driving cardiac fibrosis and are providing unprecedented insights into its heterogeneity and progression. This review provides a comprehensive analysis of how techniques-encompassing genomics, epigenomics, transcriptomics, proteomics, and metabolomics-are providing insight into our understanding of cardiac fibrosis. Genomic studies have identified novel genetic variants and regulatory networks associated with fibrosis susceptibility and progression, and single-cell transcriptomics has unveiled distinct cardiac fibroblast subpopulations with unique molecular signatures. Epigenomic profiling has revealed dynamic chromatin modifications controlling fibroblast activation states, and proteomic analyses have identified novel biomarkers and potential therapeutic targets. Metabolomic studies have uncovered important alterations in cardiac energetics and substrate utilization during fibrotic remodeling. The integration of these multi-omic data sets has led to the identification of previously unrecognized pathogenic mechanisms and potential therapeutic targets, including cell-type-specific interventions and metabolic modulators. We discuss how these advances are driving the development of precision medicine approaches for cardiac fibrosis while highlighting current challenges and future directions in translating multi-omic insights into effective therapeutic strategies. This review provides a systems-level perspective on cardiac fibrosis that may inform the development of more effective, personalized therapeutic approaches for heart failure and related cardiovascular diseases.
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