Selectivity of hemicholinium mustard, an affinity ligand, for the high-affinity choline transport system.

The selectivity of the irreversible inhibition of high-affinity choline uptake (HACU) by hemicholinium mustard (HCM; 2,2'-(4,4'-biphenylene)bis[2-hydroxy-4-(2-bromoethyl)-morpholine] hydrochloride) with respect to other cholinergic proteins and other sodium-dependent transport systems was examined. Preincubation of rat forebrain membranes with HCM, followed by washing and measurement of [3H]-hemicholinium-3 binding to the high-affinity choline transporter, was shown to decrease binding capacity (Bmax) by 70% without affecting the apparent affinity of the ligand. However, a similar preincubation, wash and binding experiment using [3H]-NMS as a ligand for muscarinic receptors showed no HCM effect on binding parameters. To measure the effects of HCM on choline acetyltransferase (ChAT), synaptosomes were incubated in HCM, then washed. The synaptosomes were lysed and ChAT activity was measured. Treatment with 50 microM HCM, a concentration that inhibits 100% of synaptosomal HACU, results in a 24% decrease in ChAT activity. HCM demonstrates little residual inhibition of other sodium-dependent neurotransmitter transporter transporters: preincubation with 50 microM HCM results in a decrease of 12% in transport of [3H]-dopamine and a decrease of 6% in the transport of [3H]-GABA. The binding of HCM, like that of hemicholinium-3 is sodium-dependent. HCM preincubation in the presence of sodium results in inhibition of HACU to 32% of control; in the absence of sodium HACU is 65% of control. This represents a loss of 51% of the observed irreversible inhibition produced by HCM. Irreversible inhibition by HCM can also be prevented by co-incubation with hemicholinium-3. Co-incubation with hemicholinium-3 results in residual HACU inhibition that decreases from 51% (HCM alone) to 28% (HCM + hemicholinium-3). When atropine instead of hemicholinium-3 is co-incubated with HCM, HCM still inhibits 40% of transport, demonstrating the pharmacological specificity of the protective effect of hemicholinium-3. Experiments in the guinea-pig myenteric plexus preparation demonstrate a gradual recovery from the residual effects of HCM. Evoked ACh release decreases to 24% immediately following treatment with 1 microM HCM. After 2 hr of recovery, tissues have recovered to about 50% of control levels, after which recovery continues at a slower rate.