Insights into the Mechanism Responsible for Spontaneous Acceptance of Liver Allografts (141.41)

Abstract

Abstract Transplantation of fully histoincompatable livers between strains of rodents often results in spontaneous acceptance of the graft. Lewis rats reject DA livers in 14 days while DA recipients of Lewis livers have long-term graft survival. We sought to determine the mechanism of this spontaneous graft survival. NK cells and subsets of T cells express NKG2D. On NK cells, NKG2D functions as a stimulatory receptor that induces effector functions. We examined NKG2D receptor and ligand expression post-transplant. Groups of Lewis rats received livers from DA (rejection combination) or Lewis donors (syngeneic) and DA rats received livers from Lewis (non-rejection combination) or DA donors (syngeneic). NKG2D expression was low in syngeneic grafts but increased 7-fold in Lewis→DA grafts and 17-fold in DA→Lewis grafts by day 7 post-transplant. Ligands of NKG2D were not expressed in normal liver but were up regulated in all liver grafts by day 1 post-transplant, suggesting that ischemia/reperfusion injury and trauma induce expression of these ligands. RAE1L and RRLT were significantly up regulated specifically in DA→Lewis liver grafts by day 7 post-transplant. In marked contrast, the expression of RAE1L and RRLT in Lewis→ DA liver grafts was similar to the levels detected in syngeneic liver grafts suggesting that signals that lead to an increase in NKG2D ligand expression are absent in this strain combination. In conclusion, the absence of NKG2D ligand expression in the liver graft may play a role in preventing rejection, and decreasing the expression of these proteins may be a useful strategy to promote graft non-responsiveness. Supported by AI044095