Phorbol esters and calcium ionophores inhibit internalization and accelerate recycling of receptors in macrophages.

Exposure of macrophages to phorbol esters or the calcium ionophore A23187 increases the number of several surface receptors due to recruitment of receptors from internal pools (Buys, S. S., Keogh, E. A., and Kaplan, J. (1984) Cell 38, 569-576). We have examined the mechanism by which these agents increase surface receptor number. Cells which were preloaded with either fluid phase or receptor-mediated ligands did not lose ligand following exposure to ionophore or phorbol ester. The rate of movement of ligands to the lysosome was also unaffected. These results suggest that A23187 does not induce the fusion of ligand-containing compartments with the cell surface. Ionophore treatment did, however, produce a severalfold increase in the rate at which unoccupied receptors reappear on the cell surface. These results suggest that the compartment of receptors affected by the ionophore formed subsequent to the dissociation of ligand from receptor. The altered rate of receptor reappearance was transitory (90 s), and the increase in receptor number was subsequently maintained by a decrease in the rate of internalization. Changes in the rate of receptor internalization did not correlate with changes in the rate of fluid phase pinocytosis, suggesting that the effect on receptor internalization was selective.