Breaking tolerance to a tumor-associated viral superantigen as a basis for graft-versus-leukemia reactivity

Abstract

A major goal in tumor immunotherapy consists of breaking potential tumor-specific T-cell unresponsiveness (tolerance), which may explain tumor growth in cancer patients. We report that immunological tolerance to a tumor-associated viral superantigen (SAg) is overcome in a mouse lymphoma model by transfer of allogeneic T cells expressing SAg-reactive Vbeta6 T-cell receptor chains. Surprisingly, upon contact with SAg-expressing lymphoma cells, Vbeta6 T cells became activated rather than tolerized (as reported previously). They also developed SAg-specific cytotoxic T-lymphocyte activity and secreted IL-2 and IFN-gamma. The grafted T cells infiltrated liver metastases, formed close contact with SAg-expressing tumor cells, and caused significant graft-vs. -leukemia (GvL) effects. Selection for tumor resistance among the progeny from a cross between SAg-negative donor and SAg- positive recipient strains revealed a strict correlation between loss of the endogenous SAg tolerogen, rescue of Vbeta6 T cells from SAg-mediated deletion, and leukemia resistance. These findings suggest that immune responses to SAg can be exploited to break tolerance and augment immune responses to tumors.