The activation of tumoricidal properties in human blood monocytes by muramyl dipeptide requires specific intracellular interaction.

Abstract

The purpose of this study was to identify the mechanism by which muramyl dipeptide (MDP) activates antitumor cytotoxic properties in normal and interferon-gamma (IFN-gamma)-primed human peripheral blood monocytes. The structurally and functionally active MDP analog, nor-muramyl dipeptide (nor-MDP), and [3H]nor-MDP were used as reference glycopeptides. Direct activation of normal, noncytotoxic monocytes by nor-MDP was enhanced by its encapsulation within multilamellar vesicles (MLV). Studies with [3H]nor-MDP revealed that the activation of monocytes by nor-MDP was not attributable to its interaction with a specific cell surface receptor, nor did it result merely from the internalization by monocytes of glycopeptide. Subthreshold concentrations of nor-MDP could activate tumor cytotoxic properties in IFN-gamma-primed monocytes. The intracellular interaction of [3H]nor-MDP with IFN-gamma-primed monocytes was specific in that intracellular levels of radiolabeled material could be displaced and recovered as intact molecules by unlabeled nor-MDP, but not by a biologically inactive MDP stereoisomer. Collectively, these results suggest that the activation of tumoricidal properties in human blood monocytes by MDP occurs subsequent to intracellular interaction with specific MDP receptors.