Department of Pharmaceutical Sciences, Butler University, Indianapolis, Indiana (W.C.H.); Division of Pharmaceutical Sciences (M.J.W., C.K.S.) and Department of Chemistry and Biochemistry (J.D.M.), Duquesne University, Pittsburgh; and Molecular Neuropsychiatry Research Branch, Intramural Research Program, National Institute on Drug Abuse, National Institutes of Health, Department of Health and Human Services, Baltimore, Maryland (D.S.W., T.H., L.L., S.H., D.B.S., J.L.K.).
Department of Pharmaceutical Sciences, Butler University, Indianapolis, Indiana (W.C.H.); Division of Pharmaceutical Sciences (M.J.W., C.K.S.) and Department of Chemistry and Biochemistry (J.D.M.), Duquesne University, Pittsburgh; and Molecular Neuropsychiatry Research Branch, Intramural Research Program, National Institute on Drug Abuse, National Institutes of Health, Department of Health and Human Services, Baltimore, Maryland (D.S.W., T.H., L.L., S.H., D.B.S., J.L.K.)
J Pharmacol Exp Ther. 2018 Sep;366(3):527-540. doi: 10.1124/jpet.118.250498. Epub 2018 Jun 26.
Atypical dopamine transporter (DAT) inhibitors, despite high DAT affinity, do not produce the psychomotor stimulant and abuse profile of standard DAT inhibitors such as cocaine. Proposed contributing features for those differences include off-target actions, slow onsets of action, and ligand bias regarding DAT conformation. Several 3-(4',4''-difluoro-diphenylmethoxy)tropanes were examined, including those with the following substitutions: -(indole-3''-ethyl)- (GA1-69), -()-2''-amino-3''-methyl--butyl- (GA2-50), -2''aminoethyl- (GA2-99), and -(cyclopropylmethyl)- (JHW013). These compounds were previously reported to have rapid onset of behavioral effects and were presently evaluated pharmacologically alone or in combination with cocaine. DAT conformational mode was assessed by substituted-cysteine accessibility and molecular dynamics (MD) simulations. As determined by substituted-cysteine alkylation, all BZT analogs except GA2-99 showed bias for a cytoplasmic-facing DAT conformation, whereas cocaine stabilized the extracellular-facing conformation. MD simulations suggested that several analog-DAT complexes formed stable R85-D476 "outer gate" bonds that close the DAT to extracellular space. GA2-99 diverged from this pattern, yet had effects similar to those of other atypical DAT inhibitors. Apparent DAT association rates of the BZT analogs in vivo were slower than that for cocaine. None of the compounds was self-administered or stimulated locomotion, and each blocked those effects of cocaine. The present findings provide more detail on ligand-induced DAT conformations and indicate that aspects of DAT conformation other than "open" versus "closed" may facilitate predictions of the actions of DAT inhibitors and may promote rational design of potential treatments for psychomotor-stimulant abuse.
非典型多巴胺转运体 (DAT) 抑制剂尽管与 DAT 具有高亲和力,但不会产生可卡因等标准 DAT 抑制剂的精神运动兴奋剂和滥用特征。造成这些差异的原因包括脱靶作用、作用缓慢以及与 DAT 构象有关的配体偏向。研究了几种 3-(4',4''-二氟-二苯甲氧基)托烷,包括具有以下取代基的化合物:-(吲哚-3''-乙基)-(GA1-69)、-()-2''-氨基-3''-甲基--丁基-(GA2-50)、-2''-氨基乙基-(GA2-99)和-(环丙基甲基)-(JHW013)。这些化合物以前报道具有快速的行为效应,目前单独或与可卡因联合进行了药理学评估。DAT 构象模式通过取代半胱氨酸可及性和分子动力学 (MD) 模拟进行评估。根据取代半胱氨酸烷基化测定,除 GA2-99 外,所有 BZT 类似物均显示偏向细胞质面向 DAT 构象,而可卡因稳定了细胞外向构象。MD 模拟表明,几种类似物-DAT 复合物形成了稳定的 R85-D476“外门”键,将 DAT 关闭到细胞外空间。GA2-99 偏离了这种模式,但具有与其他非典型 DAT 抑制剂相似的作用。BZT 类似物在体内与 DAT 的表观关联速率比可卡因慢。没有一种化合物被自我给药或刺激运动,并且每种化合物都阻断了可卡因的这些作用。目前的研究结果提供了有关配体诱导的 DAT 构象的更多细节,并表明除了“开放”与“关闭”之外,DAT 构象的某些方面可能有助于预测 DAT 抑制剂的作用,并可能促进潜在治疗精神运动兴奋剂滥用的合理设计。
