Transplasma membrane electron and proton transport is inhibited by chloroquine.

Chloroquine is a weak base which has been shown to inhibit lysosomal acidification. Chloroquine inhibits iron uptake in reticulocytes at a concentration of 0.5 mM. It is also effective in the control of malaria and other parasitic diseases. We now report that chloroquine inhibits NADH diferric transferrin reductase as well as the proton release stimulated by diferric transferrin from liver and HeLa cells. Ammonium chloride which also inhibits endosome acidification does not significantly inhibit the NADH diferric transferrin reduction. NADH diferric transferrin reductase of isolated rat liver plasma membrane is inhibited by chloroquine at concentrations similar to those required for inhibition of diferric transferrin reduction by whole cells. Ferricyanide reduction by whole cells is also inhibited by chloroquine. These observations provide an alternative mechanism for chloroquine control of acidification of endosomes and suggests a new approach to control of protozoal parasites through inhibition of a transmembrane oxidoreductase which controls transmembrane proton movement.