期刊
BIOMEDICINES
卷 9, 期 7, 页码 -出版社
MDPI
DOI: 10.3390/biomedicines9070781
关键词
endothelial dysfunction; inflammation; Nf-kappa B; adhesion molecules; selectins; NLRP3 inflammasome; shear stress
Maintenance of endothelial cell integrity is crucial for human health, as dysfunction can lead to various diseases. Activated and injured endothelial cells release inflammatory mediators and enter a pro-thrombotic state, ultimately promoting atherosclerosis progression. Various pathways and mechanisms contribute to endothelial dysfunction, highlighting the complexity of this process.
Maintenance of endothelial cell integrity is an important component of human health and disease since the endothelium can perform various functions including regulation of vascular tone, control of hemostasis and thrombosis, cellular adhesion, smooth muscle cell proliferation, and vascular inflammation. Endothelial dysfunction is encompassed by complex pathophysiology that is based on endothelial nitric oxide synthase uncoupling and endothelial activation following stimulation from various inflammatory mediators (molecular patterns, oxidized lipoproteins, cytokines). The downstream signaling via nuclear factor-kappa B leads to overexpression of adhesion molecules, selectins, and chemokines that facilitate leukocyte adhesion, rolling, and transmigration to the subendothelial space. Moreover, oscillatory shear stress leads to pro-inflammatory endothelial activation with increased monocyte adhesion and endothelial cell apoptosis, an effect that is dependent on multiple pathways and flow-sensitive microRNA regulation. Moreover, the role of neutrophil extracellular traps and NLRP3 inflammasome as inflammatory mechanisms contributing to endothelial dysfunction has recently been unveiled and is under further investigation. Consequently, and following their activation, injured endothelial cells release inflammatory mediators and enter a pro-thrombotic state through activation of coagulation pathways, downregulation of thrombomodulin, and an increase in platelet adhesion and aggregation owing to the action of von-Willebrand factor, ultimately promoting atherosclerosis progression.
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