Indirect CD4+ T-cell-mediated elimination of MHC IINEG tumor cells is spatially restricted and fails to prevent escape of antigen-negative cells

Abstract

Tumor-specific Th1 cells can activate tumor-infiltrating macrophages that eliminateMHC class II negative (MHC IINEG) tumor cells. Activated M1-like macrophages lack antigen (Ag) receptors, and are presumably unable to discriminate and thus kill both Ag-positive (AgPOS) and Ag-negative (AgNEG) tumor cells (bystander killing). The lack of specificity of macrophage-mediated cytotoxicity might be of clinical importance as it could provide a means of avoiding tumor escape. Here, we have tested this idea using mixed populations of AgPOS and AgNEG tumor cells in a TCR-transgenic model in which CD4+ T cells recognize a secreted tumor-specific antigen. Surprisingly, while AgPOS tumor cells were recognized and rejected, AgNEG cells grew unimpeded and formed tumors. We further demonstrated that macrophage-mediated cytotoxicity was spatially restricted to areas dominated by AgPOS tumor cells, sparing AgNEG tumor cells in the vicinity. As a consequence, macrophage tumoricidal activity did not confer bystander killing in vivo. The present results offer novel insight into the mechanisms of indirect Th1-mediated elimination of MHC IINEG tumor cells.