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Flow-induced reprogramming of endothelial cells in atherosclerosis

Ian A. Tamargo, Kyung In Baek, Yerin Kim, Christian Park, Hanjoong Jo

2023Nature Reviews Cardiology249 citationsDOIOpen Access PDF

Abstract

Atherosclerotic diseases such as myocardial infarction, ischaemic stroke and peripheral artery disease continue to be leading causes of death worldwide despite the success of treatments with cholesterol-lowering drugs and drug-eluting stents, raising the need to identify additional therapeutic targets. Interestingly, atherosclerosis preferentially develops in curved and branching arterial regions, where endothelial cells are exposed to disturbed blood flow with characteristic low-magnitude oscillatory shear stress. By contrast, straight arterial regions exposed to stable flow, which is associated with high-magnitude, unidirectional shear stress, are relatively well protected from the disease through shear-dependent, atheroprotective endothelial cell responses. Flow potently regulates structural, functional, transcriptomic, epigenomic and metabolic changes in endothelial cells through mechanosensors and mechanosignal transduction pathways. A study using single-cell RNA sequencing and chromatin accessibility analysis in a mouse model of flow-induced atherosclerosis demonstrated that disturbed flow reprogrammes arterial endothelial cells in situ from healthy phenotypes to diseased ones characterized by endothelial inflammation, endothelial-to-mesenchymal transition, endothelial-to-immune cell-like transition and metabolic changes. In this Review, we discuss this emerging concept of disturbed-flow-induced reprogramming of endothelial cells (FIRE) as a potential pro-atherogenic mechanism. Defining the flow-induced mechanisms through which endothelial cells are reprogrammed to promote atherosclerosis is a crucial area of research that could lead to the identification of novel therapeutic targets to combat the high prevalence of atherosclerotic disease. In this Review, Jo and colleagues discuss blood flow-induced mechanisms involved in endothelial cell dysfunction and atherosclerosis, including the emerging concept of disturbed-flow-induced reprogramming of endothelial cells as a pro-atherogenic mechanism, and highlight the therapeutic potential of targeting of flow-sensitive genes, proteins and pathways.

Topics & Concepts

MedicineEndothelial dysfunctionEndothelial stem cellEndotheliumReprogrammingInflammationCell biologyVasculogenesisEndothelial activationCancer researchImmunologyInternal medicineCellBiologyStem cellProgenitor cellGeneticsIn vitroBiochemistrySingle-cell and spatial transcriptomicsZebrafish Biomedical Research ApplicationsPhagocytosis and Immune Regulation
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