Modulation of protein expression during interferon-gamma (IFN-gamma)-lipopolysaccharide (LPS)-mediated macrophage tumoricidal activation has been examined by metabolic radiolabeling of various murine peritoneal macrophage populations with [35S]methionine followed by SDS-PAGE analysis. Although both IFN-gamma and LPS are capable of stimulating the expression of several proteins when used independently, combined treatment induced the enhanced or de novo expression of a 120,000 dalton polypeptide. The expression of this protein was synergistically regulated by both IFN-gamma and LPS in a manner strongly reminiscent of the functional synergism that these two agents exhibit with respect to induction of tumoricidal activity. p120 expression could be seen first at approximately 3 hr after the addition of both agents, reached optimal expression by 6 hr, and maintained elevated synthesis for up to 24 hr. This time course corresponds closely to that seen for the acquisition of tumoricidal competence. Macrophages elicited in the primed state of activity in vivo with methyl vinyl ether co-polymer II (MVE-II) did not express p120, but could be induced to do so when treated with low doses of LPS. Under similar conditions, MVE-II-elicited cells also acquire tumoricidal activity. Macrophages obtained from mice chronically infected with bacillus Calmette-Guerin constitutively expressed both p120 and cytolytic activity. If such macrophages were cultured for 24 hr, the expression of both events decayed and was lost, but could be restored by treatment with low doses of LPS. Thus the data support a strong correlation between the expression by macrophages of a novel 120,000 dalton protein and the expression of tumor cytotoxicity.