Human Leukocyte Transmigration Across Ga1α(1,3) Gal-Negative Porcine Endothelium Is Regulated by Human CD18 and CD99

Background. In pig-to-human xenotransplantation cross-species receptor interactions mediate cellular infiltration and rejection of porcine grafts. However, the mechanisms responsible for recruitment of human leukocyte subsets across porcine endothelial cells (EC) remain largely unknown. Here, we investigated the role of CD99, CD18, and Ga1 alpha(1,3)Gal(Gal) in this process. Methods. Adhesion and transmigration of human peripheral blood mononuclear cell (PBMC) subsets on Gal(-/-) and Gal(-/-) porcine EC (pEC) and on human EC was analyzed using a two-compartment system separated by a permeable membrane. The mechanisms of human PBMC recruitment to pEC were investigated by blocking cell surface receptors and by differentially measuring adhesion and transendothelial migration (TEM). Results. Blocking of CD 18, but not CD99, decreased human PBMC adhesion on pEC, whereas blocking of CD 18 or CD99 strongly reduced the Subsequent human PBMC TEM across pEC. The inhibitory effect of CD99 blockade was slightly stronger across pEC as compared with human EC. A critical role for Gal in TEM of human monocytes, B, natural killer (NK), NK/T, and T cells was excluded by evaluating TEM across pEC derived from Gal(-/-) and Gal(-/-) pigs. Conclusions. CD99 and CD18, but not Gal, play a critical role in human monocyte and lymphocyte TEM across pEC, and their respective porcine ligands may serve as targets to specifically inhibit human leukocyte recruitment in pig-to-human xenotransplantation.