Abstract
Post-transplantation cardiac xenograft growth in an orthotopic pig to baboon model is a life-limiting phenomenon that is poorly understood. Possible causes of growth include both intrinsic and extrinsic etiologies. Extrinsic causes are thought to be attributed to maladaptive hypertrophy as a result of increased mean arterial pressure experienced by the cardiac xenograft after transplantation. Intrinsic causes are thought to be a result of discordant growth between pig xenografts and recipients. This results in intrinsic xenograft growth that parallels the donor and continues in a recipient in which growth is relatively minimal, controlled in part by the growth hormone receptor, IGF-1 axis. Recently, Zaman, et al. published a study titled, "Selective loss of resident macrophage-derived insulin-like growth factor-1 abolishes adaptive cardiac growth to stress," in Immunity, Volume 54; Issue 9, pp. 2057-2071. They demonstrated that insulin growth factor-secreting resident macrophages that sense hypertensive stress are a mechanistic link to hypertension and maladaptive hypertrophy in the setting of hypertension. While notable in its own right, we comment on how this work may shed light on a new underlying mechanism for the use of growth hormone receptor knockout (GHRKO) pig donors and its role in addressing post-transplantation xenograft growth. We hypothesize that GHRKO pig donors contain syngeneic resident cardiac macrophages that abrogate IGF-1 mediated maladaptive hypertrophy from hypertension. Futures studies in post-transplantation cardiac xenotransplantation growth should examine this mechanism as a potential contributor.