The synthesis and biological evaluation of 2-(3-methyl or 3-phenylisoxazol-5-yl)-3-aryl-8-thiabicyclo[3.2.1]octanes.

Cocaine, a potent stimulant of the central nervous system, owes its reinforcing and stimulant properties to its ability to inhibit monoamine uptake systems such as the Dopamine Transporter (DAT), and the Serotonin Transporter (SERT) located on presynaptic neurons in the striatum. The search for pharmacotherapies for cocaine addiction has focused on the design of compounds that bind selectively to the DAT and manifest slow onset of stimulatory action with long duration of action. We had reported that 3-aryl-2-carbomethoxy-8-thiabicyclo[3.2.1]octanes are potent and selective inhibitors of the DAT. In this Letter we report on the effects of replacement of the 2-carbomethoy group by a 2-isoxazole. This new class of 8-thiabicyclo[3.2.1]octanes provides potent and selective inhibitors of the DAT. The 3ß-aryl compounds are particularly potent inhibitors of DAT (IC(50) = 7-43 nM) with substantial selectivity versus inhibition of SERT.

The synthesis of bivalent 2beta-carbomethoxy-3beta-(3,4-dichlorophenyl)-8-heterobicyclo[3.2.1]octanes as probes for proximal binding sites on the dopamine and serotonin transporters.

3-Aryltropanes have been widely explored for potential medications for remediation of cocaine abuse. Research has focused predominantly on 8-azatropanes and it is now well recognized that these compounds can be designed to manifest varied selectivity and potency for inhibition of the dopamine, serotonin, and norepinephrine uptake systems. We had reported that the 8-nitrogen atom present in the 3-aryltropanes is not essential for tropanes to bind to monoamine uptake systems. We demonstrated that compounds in which the amine had been exchanged for an ether or a thioether retained binding potency and selectivity. We have now designed bivalent compounds in which two tropane moieties are linked by an intervening chain. These 8-homo- and 8-heterotropane bivalent compounds allowed a search for adjacent tropane binding sites on the DAT as well as a further exploration of whether the binding sites for 8-azatropanes are the same as those for other 8-heterotropanes. A comparison of these compounds with their progenitor tropanes cast into doubt the existence of proximal binding sites on the DAT, and offered support for the existence of different binding sites for the 8-azatropanes compared with 8-oxa- and 8-thiatropanes. Indeed, 8-aza bivalent tropanes inhibited DAT with potency about 10-fold lower (DAT: IC50 = 31 nM) than their monovalent counterparts. Furthermore, bivalent ligands in which one or both of the tropanes was devoid of an amine suffered a further loss of inhibitory potency. We conclude that it is unlikely that there exist two tropane binding sites in close proximity to one another on either the DAT or SERT.

Synthesis of 8-thiabicyclo[3.2.1]octanes and their binding affinity for the dopamine and serotonin transporters.

Cocaine is a potent stimulant of the central nervous system. Its reinforcing and stimulant properties have been associated with inhibition of the dopamine transporter (DAT) on presynaptic neurons. In the search for medications for cocaine abuse, we have prepared 2-carbomethoxy-3-aryl-8-thiabicyclo[3.2.1]octane analogues of cocaine. We report that this class of compounds provides potent and selective inhibitors of the DAT and SERT. The selectivity resulted from reduced activity at the SERT. The 3beta-(3,4-dichlorophenyl) analogue inhibits the DAT and SERT with a potency of IC(50)=5.7 nM and 8.0 nM, respectively. The 3-(3,4-dichlorophenyl)-2,3-unsaturated analogue inhibits the DAT potently (IC(50)=4.5 nM) and selectively (>800-fold vs SERT). Biological enantioselectivity of DAT inhibition was limited for both the 3-aryl-2,3-unsaturated and the 3alpha-aryl analogues (2-fold), but more robust (>10-fold) for the 3beta-aryl analogues. The (1R)-configuration provided the eutomers.

Synthesis of 8-thiabicyclo[3.2.1]oct-2-enes and their binding affinity for the dopamine and serotonin transporters.

The reinforcing and stimulant properties of cocaine have been primarily associated with its propensity to bind to monoamine transport systems, in particular the dopamine transporter. Inhibition of the dopamine transporter then leads to an increase of synaptic dopamine with substantial pharmacological consequences. The search for medications for cocaine abuse has had a particular focus on tropane analogs of cocaine, and the interchange of nitrogen for oxygen in this class has led to potent and selective inhibitors of monoamine transport. Herein we report that 8-thiatrop-2-enes are highly potent and quite selective inhibitors of the dopamine transporter. The 3,4-dichlorophenyl-8-thiabicyclo[3.2.1]oct-2-ene (4f) is particularly potent (IC50=4.5 nM) and selective (800-fold) with respect to inhibition of the serotonin transporter.