Coating Decellularized Equine Carotid Arteries with CCN1 Improves Cellular Repopulation, Local Biocompatibility, and Immune Response in Sheep

Decellularized equine carotid arteries (dEAC) are potential alternatives to alloplastic vascular grafts although there are certain limitations in biocompatibility and immunogenicity. Here, dEAC were coated with the matricellular protein CCN1 and evaluated in vitro for its cytotoxic and angiogenic effects and in vivo for cellular repopulation, local biocompatibility, neovascularization, and immunogenicity in a sheep model. CCN1 coating resulted in nontoxic matrices not compromising viability of L929 fibroblasts and endothelial cells (ECs) assessed by WST-8 assay. Functionality of CCN1 was maintained as it induced typical changes in fibroblast morphology and MMP3 secretion. For in vivo testing, dEAC±CCN1 (n=3 each) and polytetrafluoroethylene (PTFE) protheses serving as controls (n=6) were implanted as cervical arteriovenous shunts. After 14 weeks, grafts were harvested and evaluated immunohistologically. PTFE grafts showed a patency rate of only 33% and lacked cellular repopulation. Both groups of bioartif...