Interferon-induced inhibition of receptor-mediated endocytosis of colony-stimulating factor (CSF-1) by murine peritoneal exudate macrophages.

Apart from its characteristic antiviral activity, interferon (IFN) also exerts a variety of biologic effects on macrophages. We have studied the effect of IFN on the expression of the colony-stimulating factor receptors (CSF-1 receptors) by murine peritoneal exudate macrophages (PEM). At 37 degrees C, murine IFN decreased the expression of the CSF-1 receptor activity in a time- and dose-dependent fashion by PEM from both endotoxin-sensitive (C3H/Sn) and endotoxin-resistant strains (C3H/HeJ) of mice. Scatchard analysis from the binding data suggests that the decreased expression of CSF-1 receptors is a result of decreased number of receptors rather than a decreased binding affinity. When IFN was incubated with anti-IFN before the addition to cultures, the effect was completely abolished indicating that this activity resides in the same molecules as IFN. The suppressed CSF-1 receptor activity on PEM by IFN appeared to be stable. Removal of added IFN never resulted in a full recovery of CSF-1 binding activity by PEM even after prolonged incubation (7 days). IFN also inhibited the receptor-mediated uptake and utilization of CSF-1 molecules by treated cells, which appeared to be a direct effect of the decreased number of CSF-1 receptors. Treatment of PEM with dexamethasone, prostaglandin, transferrin, insulin, or dibutyryl cAMP failed to suppress both the expression of CSF-1 receptors and CSF-1 utilization by PEM. These studies suggest that IFN may play a role in the regulation of both macrophage production and differentiation via the modulation of specific membrane receptors and inhibition of receptor-mediated CSF-1 endocytosis.