Improving impact of heparan sulfate on the endothelial glycocalyx abnormalities in atherosclerosis as revealed by glycan-protein interactome

糖萼 硫酸乙酰肝素 相互作用体 氧化应激 细胞生物学 化学 蛋白质组学 生物化学 糖生物学 糖蛋白 聚糖 糖胺聚糖 生物 基因
作者
Qingqing Chen,Xiaohui Xu,Shaoshuai Xie,Anran Sheng,Naihan Han,Zhenyu Tian,Xiaowei Wang,Fuchuan Li,Robert J. Linhardt,Fuming Zhang,Lan Jin,Qunye Zhang,Lianli Chi
出处
期刊:Carbohydrate Polymers [Elsevier BV]
卷期号:330: 121834-121834 被引量:10
标识
DOI:10.1016/j.carbpol.2024.121834
摘要

Endothelial dysfunction induced by oxidative stress is an early predictor of atherosclerosis, which can cause various cardiovascular diseases. The glycocalyx layer on the endothelial cell surface acts as a barrier to maintain endothelial biological function, and it can be impaired by oxidative stress. However, the mechanism of glycocalyx damage during the development of atherosclerosis remains largely unclear. Herein, we established a novel strategy to address these issues from the glycomic perspective that has long been neglected. Using countercharged fluorescence protein staining and quantitative mass spectrometry, we found that heparan sulfate, a major component of the glycocalyx, was structurally altered by oxidative stress. Comparative proteomics and protein microarray analysis revealed several new heparan sulfate-binding proteins, among which alpha-2-Heremans-Schmid glycoprotein (AHSG) was identified as a critical protein. The molecular mechanism of AHSG with heparin was characterized through several methods. A heparan analog could relieve atherosclerosis by protecting heparan sulfate from degradation during oxidative stress and by reducing the accumulation of AHSG at lesion sites. In the present study, the molecular mechanism of anti-atherosclerotic effect of heparin through interaction with AHSG was revealed. These findings provide new insights to into understanding glycocalyx damage in atherosclerosis and lead to the development of corresponding therapeutics.
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