Studies are reported that describe the multifaceted inhibitory effects of prostaglandin A1 (PGA1) on processes that govern the transport of folates across the plasma membrane of Chinese hamster ovary (CHO) cells: the reduced folate carrier, RFC1, and ATP-dependent exporters. PGA1 was a noncompetitive inhibitor of MTX influx mediated by RFC1 with a Ki of approximately 21 microM. The onset of inhibition was virtually instantaneous, not reversible, and appeared to require the incorporation of PGA1 into the lipid membrane; surface adsorption alone was insufficient for inhibition of RFC1 transport activity. In contrast, the effect of PGA1 on folic acid transport was small (approximately 20% inhibition of total influx), consistent with the observation that the major portion of folic acid transport in CHO cells is mediated by a low pH mechanism distinct from RFC1. PGA1 was also a potent inhibitor of the ATP-driven efflux of both MTX and folic acid. At a concentration of 7 microM PGA1, the efflux rate constants for these folates were depressed by approximately 70 and approximately 50%, respectively. The net effects of PGA1 on the bidirectional folate fluxes translated into marked alterations in net transport. The addition of 7 microM PGA1 to cells at steady state with 1 microM MTX produced a rapid onset of net uptake and the achievement of an approximately 3-fold increase in the steady-state free MTX level as compared with untreated CHO cells. The addition of 7 microM PGA1 to cells at steady state with 1 microM folic acid produced an approximately 5-fold increase in the free folate level. These studies establish PGA1 as a potent inhibitor of both the reduced folate carrier and ATP-driven folate exporter(s). The noncompetitive nature of the inhibition of RFC1 is unique among anionic compounds, which are usually competitive inhibitors of the carrier.