Cellular Heterogeneity in Aortic Aneurysm and Dissection: Molecular Mechanisms and Therapeutic Opportunities

细胞外基质 粘合连接 生物 免疫系统 炎症 表型 主动脉瘤 表观遗传学 疾病 电池类型 细胞 细胞生物学 表型转换 发病机制 免疫学 细胞生理学 神经科学 胚胎干细胞 细胞病理学 细胞应激反应 血管平滑肌 医学 体细胞 成纤维细胞 细胞适应 内皮 细胞分化 生物信息学 细胞粘附 细胞信号 血栓反应蛋白 内皮干细胞
作者
Tianyu Song,Ye Han,L P Xie,Y Ji
出处
期刊:Circulation Research [Lippincott Williams & Wilkins]
卷期号:138 (7): e327197-e327197 被引量:1
标识
DOI:10.1161/circresaha.125.327197
摘要

Aortic aneurysm and dissection (AAD) are life-threatening conditions characterized by progressive aortic dilation and acute aortic complications. Despite advances in surgical and endovascular management, effective pharmacological strategies to prevent AAD expansion and rupture are still lacking. The pathogenesis of AAD is increasingly understood to be driven by profound cellular heterogeneity within the aortic trilaminar wall, where diverse cell subpopulations contribute differentially to disease progression. This review integrates current evidence on how genetic predispositions, epigenetic modifications, clinical risk factors, and wall shear stress induce cellular heterogeneity, focusing on the pivotal roles of smooth muscle cells, endothelial cells, immune cells, and fibroblasts. We particularly highlight smooth muscle cell heterogeneity, which encompasses both distinct embryonic origins contributing to region-specific susceptibility to AAD, and dynamic phenotypic switching into fibroblast-like, proliferative, macrophage-like, osteochondrogenic, stressed, and adipocyte-like states. These phenotypic transitions, occurring in specific spatiotemporal patterns, critically drive extracellular matrix (ECM) degradation, inflammation, and metabolic reprogramming. Beyond smooth muscle cells, dysfunctional endothelial cells compromise barrier integrity through disruption of tight junctions (TJs), adherens junctions, and focal adhesions, facilitating leukocyte infiltration and procoagulant signaling. Diverse immune cell subsets, including heterogeneous monocytes/macrophages, eosinophils, and lymphoid cells, orchestrate complex inflammatory responses and mediate ECM breakdown. Furthermore, activated fibroblast subpopulations contribute to fibrotic remodeling and maintain close interactions with smooth muscle cells. Advances in single-cell multiomics and lineage-tracing technologies have been pivotal in unraveling the cellular complexity underlying AAD, uncovering novel disease mechanisms and cell-specific therapeutic targets. A comprehensive understanding of cellular heterogeneity, thus, holds the potential to develop precision medicine and offer promising therapeutic intervention for AAD.
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