Complement activation and coagulation in xenotransplantation

Xenotransplantation using porcine donors holds tremendous promise for alleviating the chronic shortage of human organ donors. However, transplantation from pigs into higher primates triggers a vigorous immune response involving complement activation and thrombosis. Hyperacute rejection can be prevented by using donors in which GalT, the gene responsible for the predominant target of anti‐pig natural antibodies, has been deleted. Unfortunately, the adaptive response to GalT knockout (KO) organs has been difficult to immunosuppress. The focus has shifted to identifying additional genetic modifications that will extend xenograft survival beyond the several months currently achievable. Which gene(s) should be added to the GalT KO background is open to debate. Overexpression of a complement regulatory factor(s) seems a logical first choice, supported by recent in vitro data but not yet validated in preclinical models. The next obvious candidate would be an anticoagulant protein(s) to deal with the dysregulated coagulation that is almost invariably associated with xenograft rejection. Several potentially useful molecules have been identified, although this study is yet to be translated to the pig. Our understanding of the mechanisms of GalT KO xenograft rejection continues to grow, providing a rational basis for tailoring further genetic modification of the donor and immunosuppression of the recipient.