The uptake inhibitors cocaine and benztropine differentially alter the conformation of the human dopamine transporter.

The binding affinity of the cocaine analog [(3)H]2 beta-carbomethoxy-3beta-(4-fluorophenyl) tropane (WIN) for the dopamine transporter (DAT) is increased by the reaction of Cys-90, at the extracellular end of the first transmembrane segment, with methanethiosulfonate (MTS) reagents. Cocaine enhances the reaction of Cys-90 with the sulfhydryl reagents, thereby augmenting the increase in binding. In contrast, cocaine decreases the reaction of Cys-135 and Cys-342, endogenous cysteines in cytoplasmic loops, with MTS reagents. Because this reaction inhibits [(3)H]WIN binding, cocaine protects against the loss of binding caused by reaction of these cysteines. In the present work, we compare the abilities of DAT inhibitors and substrates to affect the reaction of Cys-90, Cys-135, and Cys-342 with MTS ethyltrimethylammonium (MTSET). The results indicate that the different abilities of compounds to protect against the MTSET-induced inhibition of binding are attributable to differences in their abilities to attenuate the inhibitory effects of modification of Cys-135 and Cys-342 as well as to enhance the reaction with Cys-90 and the resulting potentiation of binding. The inhibitor benztropine was unique in its inability to protect Cys-135. Moreover, whereas cocaine, WIN, mazindol, and dopamine enhanced the reaction of Cys-90 with MTSET, benztropine had no effect on this reaction. These two features combine to give benztropine its weak potency in protecting ligand binding to wild-type DAT from MTSET. These results indicate that different inhibitors of DAT, such as cocaine and benztropine, produce different conformational changes in the transporter. There are differences in the psychomotor stimulant-like effects of these compounds, and it is possible that the different behavioral effects of these DAT inhibitors stem from their different molecular actions on DAT.

RTI-76, an isothiocyanate derivative of a phenyltropane cocaine analog, as a tool for irreversibly inactivating dopamine transporter function in vitro.

Human dopamine transporters, stably expressed by human embryonic kidney-293 cells, were reacted with 3beta-(3p-chlorophenyl)tropan-2beta-carboxylic acid p-isothiocyanatophenylethyl ester (RTI-76) under varying conditions. Exposure to RTI-76 (1 microM) at 0 degrees C, followed by extensive wash-out, reduced subsequent binding of the cocaine analog [3H]2beta-carbomethoxy-3beta-(4-fluorophenyl) tropane (WIN 35,428), which was caused by an increase in Kd in the absence of a Bmax change. Exposure to RTI-76 (50 nM(-1) microM) at 37 degrees C, however, caused concentration-dependent reductions in binding Bmax; increases in Kd were observed only at high levels of RTI-76 (0.5-1 microM). The reductions in Bmax are consonant with acylation of transporters, the increases in Kd with incomplete wash-out observed also for the amine precursor of RTI-76 which lacks the isothiocyanate group for irreversible binding and which did not lower Bmax at 37 degrees C. Reductions in binding Bmax generated by varying concentrations of RTI-76 up to 300 nM at 37 degrees C correlated with reductions in [3H]dopamine uptake Vmax on a one-to-one basis, with Km values showing a tendency towards a small reduction as a function of transporter inactivation, but the potency of WIN 35,428 in inhibiting uptake not showing a change. The results are discussed in the context of possible oligomeric assemblies of dopamine transporters carrying multiple recognition sites for cocaine analogs and dopamine.

Which form of dopamine is the substrate for the human dopamine transporter: the cationic or the uncharged species?

The question of which is the active form of dopamine for the neuronal dopamine transporter is addressed in HEK-293 cells expressing the human dopamine transporter. The Km value for [3H]dopamine uptake fell sharply when the pH was increased from 6.0 to 7.4 and then changed less between pH 7.4 and 8.2. The KI for dopamine in inhibiting the cocaine analog [3H]2beta-carbomethoxy-3beta-(4-fluorophenyl)tropane binding displayed an identical pH dependence, suggesting that changes in uptake result from changes in dopamine recognition. Dopamine can exist in the anionic, neutral, cationic, or zwitterionic form, and the contribution of each form was calculated. The contribution of the anion is extremely low (