Combinations of Cocaine with Other Dopamine Uptake Inhibitors: Assessment of Additivity

Tanda, Gianluigi; Newman, Amy Hauck; Ebbs, Aaron; Tronci, Valeria; Green, Jennifer L.; Tallarida, Ronald J.; Katz, Jonathan L.

doi:10.1124/jpet.109.154302

Cited by 49 publications

(66 citation statements)

References 30 publications

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“…Many of the BZT analogs have muscarinic M 1 antagonist effects (Tanda et al, 2009), an off-target action thought by some to interfere with cocaine-like effects (Tanda et al, 2009;Reith et al, 2015). The present compounds have appreciably lower M 1 affinity, and results here are consistent with previous results showing that atypical DAT inhibitors can have effects different from cocaine without having affinity for M 1 receptors (Tanda et al, 2009;Reith et al, 2015).…”

Section: Discussionsupporting

confidence: 82%

“…Standard DAT inhibitors block DA uptake and in laboratory animals stimulate locomotor activity, fully substitute for cocaine in subjects trained to discriminate cocaine from saline injections, and are self-administered (reviewed by Johanson and Fischman, 1989;Tanda et al, 2009;Schmitt et al, 2013). The relationship between DAT binding affinities and potencies for behavioral effects among DAT inhibitors is the basis for the hypothesis that inhibition of DA uptake mediated by actions at the DAT is the basis for the abuse liability of cocaine, and that compounds with affinity for the DAT will have behavioral effects like those of cocaine (Kuhar et al, 1991).…”

Section: Introductionmentioning

confidence: 99%

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2-Substituted 3 -Aryltropane Cocaine Analogs Produce Atypical Effects without Inducing Inward-Facing Dopamine Transporter Conformations

Hong

Kopajtic

et al. 2016

Journal of Pharmacology and Experimental Therapeutics

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Previous structure-activity relationship studies indicate that a series of cocaine analogs, 3b-aryltropanes with 2b-diarylmethoxy substituents, selectively bind to the dopamine transporter (DAT) with nanomolar affinities that are 10-fold greater than the affinities of their corresponding 2a-enantiomers. The present study compared these compounds to cocaine with respect to locomotor effects in mice, and assessed their ability to substitute for cocaine (10 mg/kg, i.p.) in rats trained to discriminate cocaine from saline. Despite nanomolar DAT affinity, only the 2b-Ph 2 COCH 2 -3b-4-ClPh analog fully substituted for cocaine-like discriminative effects. Whereas all of the 2b compounds increased locomotion, only the 2b-(4-ClPh)PhCOCH 2 -3b-4-Cl-Ph analog had cocaine-like efficacy. None of the 2a-substituted compounds produced either of these cocaine-like effects. To explore the molecular mechanisms of these drugs, their effects on DAT conformation were probed using a cysteine-accessibility assay. Previous reports indicate that cocaine binds with substantially higher affinity to the DAT in its outward (extracellular)-compared with inward-facing conformation, whereas atypical DAT inhibitors, such as benztropine, have greater similarity in affinity to these conformations, and this is postulated to explain their divergent behavioral effects. All of the 2b-and 2a-substituted compounds tested altered cysteine accessibility of DAT in a manner similar to cocaine. Furthermore, molecular dynamics of in silico inhibitor-DAT complexes suggested that the 2-substituted compounds reach equilibrium in the binding pocket in a cocaine-like fashion. These behavioral, biochemical, and computational results show that aryltropane analogs can bind to the DAT and stabilize outward-facing DAT conformations like cocaine, yet produce effects that differ from those of cocaine.

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Section: Discussionsupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

2-Substituted 3 -Aryltropane Cocaine Analogs Produce Atypical Effects without Inducing Inward-Facing Dopamine Transporter Conformations

Hong

Kopajtic

et al. 2016

Journal of Pharmacology and Experimental Therapeutics

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“…Also, CTDP-32476 pretreatment dose-dependently inhibited cocaine-taking and cocaine-seeking behavior, as assessed by cocaine selfadministration under both FR2 and PR reinforcement and by a shift in the cocaine self-administration dose-response curve, suggesting that a reduction in cocaine's rewarding effects may underlie the reduction of cocaine selfadministration after CTDP-32476 administration. This action and the underlying mechanisms may be different from those produced by other DAT inhibitors such as GBR-12909, PTT, and some RTI compounds, although they also dose-dependently inhibit cocaine self-administration and attenuate cocaine intake (Glowa et al, 1996;Howell and Wilcox, 2001;Kimmel et al, 2008;Negus et al, 2009;Rothman et al, 2008;Tanda et al, 2009). The precise mechanisms underlying such actions remain unclear.…”

Section: Discussionmentioning

confidence: 99%

CTDP-32476: A Promising Agonist Therapy for Treatment of Cocaine Addiction

Song²,

et al. 2016

Neuropsychopharmacol

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Agonist-replacement therapies have been successfully used for treatment of opiate and nicotine addiction, but not for cocaine addiction. One of the major obstacles is the cocaine-like addictive potential of the agonists themselves. We report here an atypical dopamine (DA) transporter (DAT) inhibitor, CTDP-32476, that may have translational potential for treating cocaine addiction. In vitro ligand-binding assays suggest that CTDP-32476 is a potent and selective DAT inhibitor and a competitive inhibitor of cocaine binding to the DAT. Systemic administration of CTDP-32476 alone produced a slow-onset, long-lasting increase in extracellular nucleus accumbens DA, locomotion, and brain-stimulation reward. Drug-naive rats did not self-administer CTDP-32476. In a substitution test, cocaine self-administration rats displayed a progressive reduction in CTDP-32476 self-administration with an extinction pattern of drug-taking behavior, suggesting significantly lower addictive potential than cocaine. Pretreatment with CTDP-32476 inhibited cocaine self-administration, cocaineassociated cue-induced relapse to drug seeking, and cocaine-enhanced extracellular DA in the nucleus accumbens. These findings suggest that CTDP-32476 is a unique DAT inhibitor that not only could satisfy 'drug hunger' through its slow-onset long-lasting DAT inhibitor action, but also render subsequent administration of cocaine ineffectual-thus constituting a novel and unique compound with translational potential as an agonist therapy for treatment of cocaine addiction.

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“…23,24 in which various combinations including cocaine and remifentanil were examined in protocols involving self-administration in monkeys. Tanda et al 25 examined combinations of cocaine and other dopamine uptake inhibitors in mice.…”

Section: Dose Equivalencementioning

confidence: 99%

“…It is theoretically equivalent to isobolar analysis and is sometimes more readily applied to the experimental design that is used. For example, this author adopted this approach in a study 25 that examined dopamine release by the combination of cocaine and the cocaine analog, WIN 35,428. Each agent alone produces graded dose-effect results (enhanced dopamine concentration).…”

Section: A View From the Effect Scalementioning

confidence: 99%

Quantitative Methods for Assessing Drug Synergism

2011

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Two or more drugs that individually produce overtly similar effects will sometimes display greatly enhanced effects when given in combination. When the combined effect is greater than that predicted by their individual potencies, the combination is said to be synergistic. A synergistic interaction allows the use of lower doses of the combination constituents, a situation that may reduce adverse reactions. Drug combinations are quite common in the treatment of cancers, infections, pain, and many other diseases and situations. The determination of synergism is a quantitative pursuit that involves a rigorous demonstration that the combination effect is greater than that which is expected from the individual drug's potencies. The basis of that demonstration is the concept of dose equivalence, which is discussed here and applied to an experimental design and data analysis known as isobolographic analysis. That method, and a related method of analysis that also uses dose equivalence, are presented in this brief review, which provides the mathematical basis for assessing synergy and an optimization strategy for determining the dose combination.

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Combinations of Cocaine with Other Dopamine Uptake Inhibitors: Assessment of Additivity

Cited by 49 publications

References 30 publications

2-Substituted 3 -Aryltropane Cocaine Analogs Produce Atypical Effects without Inducing Inward-Facing Dopamine Transporter Conformations

2-Substituted 3 -Aryltropane Cocaine Analogs Produce Atypical Effects without Inducing Inward-Facing Dopamine Transporter Conformations

CTDP-32476: A Promising Agonist Therapy for Treatment of Cocaine Addiction

Quantitative Methods for Assessing Drug Synergism

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