〔Abstract〕 Objective To establish a method for isolation and culture of primary endothelial cells from non-human primate coronary arteries, and to provide a cell model for the study of human coronary endothelial cells. Methods The coronary arteries of macaca mulattas were separated aseptically. The primary endothelial cells were separatedviatissue adhesion after collagenase digestion. CD31 positive cells were detected and sorted by flow cytometry to determine the purity of endothelial cells. After stimulation with prostaglandin E2(PGE2), the cellular viability and proliferation ability of primary coronary endothelial cells from macaca mulattas were evaluated by high-content cell imaging and CCK-8 assay, and the migration ability and tube function of primary coronary endothelial cells from macaca mulattas were measured by Transwell method and Matrigel glue method, respectively. Results The confluence percentage of primary coronary artery cells of macaca mulattas was about 80% after 10-14 daysin vitroculture, and the cellular morphology was irregular polygons and paver shape. The purity of endothelial cells was about 31.7% by flow cytometry. After sorting, the purity of endothelial cells was confirmed by flow cytometry, which was more than 95%. PGE2could significantly up-regulate the proliferation, migration and tube formation abilities of primary coronary endothelial cells of macaca mulattas. Conclusion This study successfully established the isolation and culture method of primary coronary endothelial cells from macaca mulattas, and proved that it could be used as anin vitrocell model to simulate human coronary endothelial cells through functional studies.