Macrophage-mediated cytostasis of neoplastic hemopoietic cells: Cytofluorometric analysis of the reversible cell cycle block

Abstract

Nonactivated mouse peritoneal macrophages inhibit the proliferation of neoplastic hemopoietic cells in vitro. This effect is dependent upon the number of adherent macrophages present in cultures of hemopoietic tumor cells and can be documented by various parameters used as indices of cell proliferation. The two-layer soft agar culture system permits analysis of the regulatory functions of macrophage-derived diffusible substances under conditions of extremely low cell density and where macrophage-tumor cell contact is prevented by the gel matrix. The ability of the underlayers of macrophages to inhibit colony formation by hemopoietic tumor cells indicates that such an effect can be mediated by factor(s) elaborated by macrophages. Evidence that the mode of action of macrophages on tumor cell proliferation is cytostatic rather than cytotoxic is the capability of the macrophages to retard tumor cell growth in a particular phase of the cell cycle with retention of cell viability. Growth inhibition could be demonstrated to be reversible, with tumor cells entering normal cell cycle distributions shortly after being removed from macrophages or macrophage-derived factors. Cytofluorometric analysis of cell cycle inhibition correlated with viable cell counts and mitotic indices and confirms the suitability of this method for studying tumor cell proliferation.