A plasma membrane P-type H(+)-ATPase regulates intracellular pH in Leishmania mexicana amazonensis.

A recent report (Mukherjee et al., J. Biol. Chem. 276 (2001) 5563) has proposed that the plasma membrane Mg(+)-ATPase of promastigotes of Leishmania donovani, that is involved in its intracellular pH regulation, is an electroneutral H(+)/K(+) antiporter rather than an electrogenic H(+) pump. Since this proposition has important implications for the use of the pump as a target for chemotherapy, we investigated its nature in the mammalian stage (amastigote) of L. mexicana amazonensis and compared it with that present in promastigotes. Intracellular pH and H(+) efflux were measured using the acetotoxymethyl ester and the free form of 2',7'-bis-(carboxyethyl)-5(and-6)-carboxyfluorescein, respectively. Intracellular pH in amastigotes (at an external pH of 5.5) and promastigotes (at an external pH of 7.4) was 6.36+/-0.02 and 6.83+/-0.07, respectively. Differences in the mechanisms for regulation of intracellular pH were noted between amastigote and promastigote forms. Amastigotes maintained their intracellular pH neutral over a wide range of external pHs in the absence of K(+) or Na(+). The H(+)-ATPase inhibitors N,N'-dicyclohexylcarbodi-imide, diethylstilbestrol and N-ethylmaleimide, substantially decreased their steady-state intracellular pH, inhibited proton efflux, and their recovery from acidification. The data support the presence of an H(+)-ATPase as the major regulator of intracellular pH in amastigotes. In contrast, promastigotes were unable to maintain a neutral pH under acidic conditions and although their steady-state intracellular pH and recovery from acidification were affected by H(+)-ATPase inhibitors, bicarbonate was able to overcome intracellular acidification. Bicarbonate was also able to raise the steady-state intracellular pH from 6.80+/-0.03 to 7.25+/-0.09 and induce membrane hyperpolarization. No evidence was found of the possible involvement of a K(+)/H(+)-ATPase in intracellular pH regulation in both developmental stages of L. m. amazonensis.