The Vascular Endothelial Glycocalyx in Ageing: Molecular Mechanisms, Age-Related Dysfunction, and Anti-Ageing Strategies for Cardiovascular Healthspan
Taiki Tojo, Minako Yamaoka-TojoThe vascular endothelial glycocalyx (EGX) is a gel-like, negatively charged mesh of membrane-bound proteoglycans, glycosaminoglycans, glycoproteins and adsorbed plasma proteins that covers the luminal surface of the endothelium and orchestrates vascular homeostasis through regulation of permeability, leukocyte trafficking, mechanotransduction and anti-thrombotic signalling. Progressive thinning, heterogeneous remodelling and accelerated shedding of the EGX are now recognised as hallmarks of vascular ageing and early drivers of age-related cardiovascular disease. Here, we synthesise current evidence linking EGX integrity to biological ageing, with emphasis on age-dependent remodelling of heparan-sulfate proteoglycans, endothelial progenitor-cell dysfunction, and the heightened susceptibility of the aged EGX to oxidative, inflammatory and infectious insults. We discuss signalling pathways driving EGX shedding—including the IQGAP1/PAR1-2/PI3K/Akt axis—and clinical correlates such as vulnerable coronary plaque in older patients with coronary artery disease and microvascular endotheliopathy in severe COVID-19. Finally, we review emerging anti-ageing strategies targeting the EGX, including direct oral anticoagulants, glycocalyx-mimetic and nitric-oxide-releasing biomaterials, bioinspired antithrombogenic surfaces and microbiome-based modulation, and consider their translational potential for extending cardiovascular healthspan.