Background: One of the proposed mechanisms of tolerance induction is the Th-1/Th-2 paradigm. The Th-1 cell is proinflammatory, secreting IFN-gamma and IL-2. Conversely, the Th-2 cell is anti-inflammatory, secreting IL-4 and IL-10. In our earlier studies a shift toward Th-2 dominance was required for tolerance induction in this model.
Materials and methods: ACI and Lewis rats were used as donors and recipients, respectively. Twelve hours prior to engraftment, rapamycin 1.5 mg/kg po and cyclosporin 10 mg/kg sc were given, followed by 5 mg/kg sc postop (days 1-7). Lewis rats were used as isografts. Functional allograft tolerance was induced consistently in 100% of the recipients with 50% of the allografts exhibiting normal histology beyond 120 days. Qualitative RT-PCR was performed on the grafts to determine IFN-gamma expression with beta-actin housekeeping gene as control.
Results: IFN-gamma was expressed in all untreated allografts (5/5) and all treated, yet rejecting, allografts (4/4). None of the isografts (0/5) or histologically tolerant allografts (0/4) expressed IFN-gamma. This distribution was statistically significant (P < 0.001, Fischer's exact test).
Conclusion: Our findings support a shift from Th-2 to Th-1 predominance as the corollary mechanism responsible for preventing histologic tolerance.
Copyright 1998 Academic Press.