p-Chloroamphetamine (PCA) interacts with serotonin transporters in two membrane vesicle model systems by competing with serotonin for transport and stimulating efflux of accumulated serotonin. In plasma membrane vesicles isolated from human platelets, PCA competes with [3H]imipramine for binding to the serotonin transporter with a KD of 310 nM and competitively inhibits serotonin transport with a KI of 4.8 nM. [3H]Serotonin efflux from plasma membrane vesicles is stimulated by PCA in a Na(+)-dependent and imipramine-sensitive manner characteristic of transporter-mediated exchange. In membrane vesicles isolated from bovine adrenal chromaffin granules, PCA competitively inhibits ATP-dependent [3H]serotonin accumulation with a KI of 1.7 microM and, at higher concentrations, stimulates efflux of accumulated [3H]serotonin. Stimulation of vesicular [3H]serotonin efflux is due in part to dissipation of the transmembrane pH difference (delta pH) generated by ATP hydrolysis. Part of PCA's ability to stimulate efflux may be due to its transport by the vesicular amine transporter. Flow dialysis experiments demonstrated uptake of [3H]PCA into chromaffin granule membrane vesicles in response to the delta pH generated in the presence of Mg2+ and ATP. In plasma membrane vesicles, no accumulation was observed using an NaCl gradient as the driving force. We conclude that rapid nonmediated efflux of transported PCA prevents accumulation unless PCA is trapped inside by a low internal pH.