A morphological sequential study of mouse-to-rat cardiac xenografts.

Long-term survival of a concordant xenograft can be achieved by using cyclosporine (CyA) and deoxyspergualin (DSG) for immunosuppression. We have demonstrated in a mouse-to-rat heterotopic heart transplantation model that DSG treatment can be stopped after 4 weeks with the grafts remaining beating. In this investigation we have sequentially characterized the morphological changes and infiltrating cells in the transplanted hearts. Graft recipients were killed 9 days, 28 days and 56 days after transplantation. At days 9 and 28, the grafts exhibited a well-preserved morphology, with infiltrating cells restricted only to the periphery. These cells stained positive for rat MHC class II antigens, the ED1-macrophage marker and the CD4 antigen, and were thus considered to be macrophages. In comparison, grafts harvested at day 56 had signs of interstitial fibrosis and some arteries showed pronounced intimal thickening. There was a moderate infiltrate of cells both in the peripheral and central parts of the graft, consisting mainly of MHC class II+/ CD4+/ED1+ macrophages. Very few T cells and NK cells were noticed. Termination of DSG after 28 days does not trigger a humoral rejection. However, the grafts exhibit morphological changes equivalent to those seen in chronic allograft rejection. In addition, the characteristics of the infiltrating cells conformed with cellular infiltrates associated with chronic allograft rejection. Hence, this model could in the future prove to be useful for studies of mechanisms involved in chronic xenograft rejection.