Background: The presence of IgG HLA-specific antibodies in the serum of patients awaiting transplantation indicates T- and B-cell priming and would result in acute rejection of a poorly matched human allograft. Recent advances in xenotransplantation, with the amelioration of hyperacute rejection using transgenic pig kidneys, may benefit such patients. However, accelerated cellular rejection might result from the primed T-cell recognition of antigenic epitopes shared between pig and human MHC molecules.
Methods: We have compared the reactivity of IgG antibodies from 8 nonsensitized (NS) and 13 highly sensitized (HS) patients with human and pig lymphocytes by flow cytometry. Xenoreactive natural antibodies (XNA) were absorbed with pig red blood cells, and HLA class I-specific antibodies were further absorbed with pooled human platelets.
Results: Before XNA absorption, 20 of the 21 patients had a positive IgG crossmatch with pig lymphocytes, and there was no difference between NS and HS patients. In contrast, after XNA absorption, none of the 8 NS patients were positive, compared with 9 of the 13 HS patients (mean of the median channel fluorescence values of 7.7 and 86.5, respectively; P=<0.001). For XNA-absorbed HS patient sera, 20 of 30 (67%) pig lymphocyte crossmatch combinations were positive, with a mean median channel fluorescence value of 125 (range 31 to 294) compared with 9.5 (range 7 to 13) for the 10 crossmatch-negative combinations. Platelet absorption resulted in a concomitant reduction in antibody binding to pig lymphocytes in three of six HS patient sera, indicating that HLA class I-specific antibodies are responsible, at least in part, for the positive crossmatch.
Conclusion: These results suggest that some IgG HLA-specific antibodies can bind to pig lymphocytes, analogous to a positive crossmatch with allogeneic donors.