Resistance to Tumor Growth Mediated by Listeria Monocytogenes. Destruction of Experimental Malignant Melanoma by Lm-Activated Peritoneal and Lymphoid Cells

Abstract

A murine experimental model of nonspecific tumor destruction mediated by cells activated by Listeria monocytogenes (LM) is described. B16 melanoma growth is prevented or suppressed in the syngeneic host when tumor cells are inoculated in contact with viable LM. In vitro, cultured B16 cells are destroyed by LM immune peritoneal or splenic cells in the presence of the bacterial antigen(s). Activation of LM immune cells in vitro is immunologically specific. Replacement of LM by sheep red blood cells or bovine serum albumin in the in vitro cultures aborts the cytotoxic effect. Further, no tumor cell killing is obtained when thioglycollate-induced or normal peritoneal cells are substituted for LM immune cells in the in vitro cultures. Normal spleen cells in the presence of LM are weakly cytotoxic for B16 cells. Normal peritoneal cells plus LM or LM alone are not. Elimination of thymus derived "T" cells by anti-theta C3H or rabbit anti-mouse brain serum (RAMB) abrogated the cytotoxic effect. Therefore, LM-induced tumor destruction probably occurs through nonspecific mechanism(s) consequent to activation of host "T" cells by specific immune reactivity to LM antigen(s).