Hydrogen ion concentration differentiates effects of methamphetamine and dopamine on transporter‐mediated efflux

Abstract

Methamphetamine (METH) causes release of stored intracellular dopamine (DA). We explored the interactions of METH with the recombinant human vesicular monoamine (hVMAT2) and/or human DA transporters (hDAT) in transfected mammalian (HEK293) cells and compared the findings with those for DA. In 'static' release assays at 37 degrees C, less than 20% of pre-loaded [(3)H]DA was lost after 60 min, while nearly 80% of pre-loaded [(3)H]METH was lost at 37 degrees C under non-stimulated conditions. Results obtained by measuring substrate release using a superfusion apparatus revealed an even greater difference in substrate efflux. At pH 7.4, nearly all of the pre-loaded [(3)H]METH was lost after just 6 min, compared with the loss of 70-80% of pre-loaded [(3)H]DA (depending on cell type) after superfusion for 32 min. Increasing the extracellular pH from 7.4 to 8.6 had opposite effects on [(3)H]DA and [(3)H]METH retention. At pH 8.6, [(3)H]METH was retained more effectively by both hDAT and hDAT-hVMAT2 cells, compared with results obtained at extracellular pH 7.4. [(3)H]DA, however, was more effectively retained at pH 7.4 than at pH 8.6. These data suggest that DA and METH interact differently with the DAT and VMAT2, and require different H(+) concentrations to exert their effects.