Tailoring of cardiovascular stent material surface by immobilizing exosomes for better pro-endothelialization function

Stent intervention as available method in clinic has been widely applied for cardiovascular disease treatment for decades. However, the restenosis caused by late thrombosis and hyperplasia still limits the stents long-term application, and the essential cause is usually recognized as endothelial functionalization insufficiency of the stent material surface. Here, we address this limitation by developing a pro-endothelial-functionalization surface that immobilized a natural factors-loaded nanoparticle, exosome, onto the poly-dopamine (PDA) coated materials via electrostatic binding. This PDA/Exosome surface not only increased the endothelial cells number on the materials, but also improved their endothelial function, including platelet endothelial cell adhesion molecule-1 (CD31) expression, cell migration and nitric oxide release. The pro-inflammation macrophage (M1 phenotype) attachment and synthetic smooth muscle cell proliferation as the interference factors for the endothelialization were not only inhibited by the PDA/Exosome coating, while the cells were also regulated to anti-inflammation macrophage (M2 phenotype) and contractile smooth muscle cell, which may contribute to endothelialization. Thus, it can be summarized this method has potential application on surface modification of cardiovascular biomaterials.