Epidermal growth factor rapidly induces a redistribution of transferrin receptor pools in human fibroblasts.

Treatment of human fibroblasts with epidermal growth factor (EGF) results in a rapid increase (less than 5 min) in the ability of the cells to bind 125I-labeled transferrin to surface receptors. Scatchard analyses of EGF-treated cells indicate that this increase was due to an increase in the number of transferrin receptors at the cell surface rather than to alterations in ligand-receptor affinity. The EGF-induced increase in transferrin receptors was transient, reaching a peak by 5 min and then declining back to near basal levels by 45 min. Increases in transferrin receptor number were observed when approximately equal to 1% of the EGF receptors were occupied and were maximal at 16% occupancy. EGF treatment accelerated the rate at which previously internalized 125I-labeled transferrin-receptor complexes were returned to the cell surface. The kinetics and magnitude of the loss of intracellular transferrin receptors was sufficient to account for the increase in surface transferrin receptors. We conclude from these studies that one of the earliest effects of EGF treatment is the induced translocation of an intracellular compartment to the cell surface. This intracellular compartment contains transferrin receptors and may be part of the pathway involved in the normal recycling of cell surface proteins.