We have demonstrated that interferon-alpha (IFN alpha) upregulates the epidermal growth factor receptor (EGF-R) on human epidermoid carcinoma cells. Here we report that IFN alpha induces growth inhibition and upregulation of transferrin receptor (TRF-R) on epidermoid cancer KB cells. IFN alpha does not alter TRF-R affinity for its ligand and induces a two-fold increase of TRF binding sites. IFN alpha does not modify receptor internalization and cycling. Intracellular iron levels are known to regulate TRF-R expression: we have, therefore, evaluated whether changes in the iron content could be determined by IFN alpha. Iron levels are transiently increased after addition of fresh growth medium in untreated controls but not in KB cells exposed for 48 h to IFN alpha. Iron depletion is however completely reversed 24 h later when maximal TRF-R upregulation occurs in IFN alpha-treated cells. We suggest that IFN alpha-induced iron depletion elicits a homeostatic cellular response through upregulation of TRF-R.