Progress and challenges in lung xenotransplantation: an update

Purpose of review Recent progress in genetic engineering has facilitated development of transgenic donor animals designed to overcome the known barriers to discordant xenotransplantation, and greatly accelerated progress in the field of xenotransplantation. Here we review and summarize recent progress in lung xenotransplantation, and discuss possible additional genetic modifications and other interventions that may further advance the use of pulmonary xenografts towards clinical applications based on known mechanisms of xeno lung injury. Recent findings Ex-vivo lung perfusion experiments have shown that the addition of human complement (hCD46, hCD55), coagulation (hEPCR, hVWF, hTBM, hTFPI, hCD39), or anti-inflammatory pathway regulatory genes (HO-1, HLA-E), and the knockout (KO) of major porcine carbohydrates (GalT, Neu5Gc, B4Gal) have each protective effects on lung survival and function. The use of these transgenes in multitransgenic donor organs, targeting several known xenogeneic rejection mechanisms, combined with drug treatments addressing remaining known rejection pathways, have led to prolonged recipient survival of up to 31 days with in some cases preserved live-supporting organ function of the transplanted graft for several days. Pulmonary vascular resistance elevation, which has been found to be associated with high thromboxane levels and has been the major failure reason of xenogeneic lung grafts in the past years, has been successfully attenuated by the addi...
Source: Current Opinion in Organ Transplantation - Category: Surgery Tags: XENOTRANSPLANTATION: Edited by Andrew Adams Source Type: research