An Evaluation of Irreversible Inhibition of Synaptosomal High‐Affinity Choline Transport by Choline Mustard Aziridinium Ion

Abstract

Choline mustard aziridinium is a potent, irreversible and selective blocker of sodium-dependent, high-affinity transport of choline into rat forebrain synaptosomes; it was found to be 30 times less potent against low-affinity transport of choline. The IC₅₀ value for high-affinity transport was 0.94 μM, compared to 29 μM for low-affinity uptake. The inhibitory action of choline mustard aziridinium ion on high-affinity transport of choline was graded with respect to time; a 12-fold increase in potency was obtained by increasing the inhibitor preincubation times from 1 to 30 min. Low concentrations of choline mustard aziridinium ion could produce significant blockade of choline carriers providing the exposure time was prolonged. The characteristics of the blockade of synaptosomal high-affinity choline transport by choline mustard aziridinium ion also changed depending upon preincubation time. The kinetics of inhibition of high-affinity choline transport by choline mustard aziridinium ion showed apparent competitive inhibition initially, followed by noncompetitive characteristics at longer preincubations with inhibitor. The rate of irreversible inhibition of carriers by this nitrogen mustard analogue would appear to be rapid; the rate constant was determined to be 5 × 10⁻² s⁻¹for micromolar concentrations of inhibitor. This action may preclude the transport of the mustard analogue into the nerve terminal, although initially some reversible binding with the carrier may result in the translocation of some choline mustard aziridinium ion into the presynaptic ending. The progressive alkylation of high-affinity carriers by the analogue could indicate the presence of excess carrier sites in the presynaptic membrane, or subpopulations of carriers in an inactive state in equilibrium with active carriers. A model is described for the inhibitory action of choline mustard aziridinium ion on synaptosomal high-affinity choline carriers.