Gallium nitrate (GN) was evaluated for its ability to interfere with a cute rejection of DBA/2-->C57BL/6 heterotopic cardiac allografts, in comparison with the depleting anti-CD4 mAb, GK1.5. The administration of GN for 30 days (s.c. 30 mg/kg elemental gallium on days 0 and 3, 10 mg/kg every third day) resulted in >60-day graft survival in 78% (25 of 32) of the graft recipients, whereas 2 perioperative injections of anti-CD4 monoclonal antibody (mAb) resulted in >60-day graft survival in 58% (24 of 41) of the graft recipients. Serum gallium levels peaked at about 2000 ng/ml after 2-3 weeks of treatment and decreased to about 300 ng/ml by day 60, a level that was maintained for at least 30 more days. During the early posttransplant period, 25% of GN-treated grafts, but not anti-CD4 mAb-treated grafts, exhibited an unusual, transient reduction in graft impulse strength, suggesting a transient rejection response. Macroscopically, the long-surviving (>60 days) grafts from either treatment group exhibited none of the features of rejecting allografts. Histologically, they exhibited minor edema and rare epicardial inflammation but no tissue necrosis. However, there were vascular changes in allografts from GN-treated mice, including altered endothelial morphology, associated with moderate intimal hyperplasia and mild perivascular leukocytic infiltration. Allografts from anti-CD4 mAb-treated mice exhibited prominent neointimal hyperplasia associated with endothelial morphologic changes and prominent vascular and perivascular leukocytic infiltration. In general, both GN and anti-CD4 mAb promoted long-term allograft survival, but these allografts displayed the histopathologic signs of ongoing inflammation and chronic allograft rejection.
We have previously reported that temporary treatment of cardiac allograft recipients with gallium nitrate (GN) results in indefinite graft survival, and the inability to mount donor-reactive delayed type hypersensitivity (DTH) responses. We report that antibodies to either transforming growth factor-beta (TGFbeta) or interleukin-10 (IL10) can uncover DTH responses to donor alloantigens in cardiac allograft acceptor mice. The DTH responses uncovered with TGFbeta-reactive antibodies can be blocked by exogenous IL10, and those uncovered with IL10-reactive antibodies can be blocked by exogenous TGFbeta. These data demonstrate that allograft acceptor mice are fully allosensitized, and poised to make donor-reactive cell-mediated immune responses. However, such responses are subverted by a donor alloantigen-dependent mechanism that involves TGFbeta and IL10, which in turn interfere with local cell-mediated immune responses.
These studies demonstrate that acute rejection correlates generally with allogeneic DTH, whereas tolerance is associated with a lack of alloreactive DTH. However, self-restricted and allorestricted allosensitization can operate independently in allograft recipients. Thus, the relationships between alloreactive DTH and graft-induced allosensitization, acute rejection, or tolerance are more complicated than previously appreciated.
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