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12-羟基伊博格胺活性的药理学筛选:吲哚生物碱伊博格碱的一种主要代谢产物。

Pharmacological screen for activities of 12-hydroxyibogamine: a primary metabolite of the indole alkaloid ibogaine.

作者信息

Staley J K, Ouyang Q, Pablo J, Hearn W L, Flynn D D, Rothman R B, Rice K C, Mash D C

机构信息

Department of Neurology (D4-5), University of Miami School of Medicine, FL 33101, USA.

出版信息

Psychopharmacology (Berl). 1996 Sep;127(1):10-8. doi: 10.1007/BF02805969.

DOI:10.1007/BF02805969
PMID:8880938
Abstract

The purported efficacy of ibogaine for the treatment of drug dependence may be due in part to an active metabolite. Ibogaine undergoes first pass metabolism and is O-demethylated to 12-hydroxyibogamine (12-OH ibogamine). Radioligand binding assays were conducted to identify the potency and selectivity profiles for ibogaine and 12-OH ibogamine. A comparison of 12-OH ibogamine to the primary molecular targets identified previously for ibogaine demonstrates that the metabolite has a binding profile that is similar, but not identical to the parent drug. Both ibogaine and 12-OH ibogamine demonstrated the highest potency values at the cocaine recognition site on the 5-HT transporter. The same rank order (12-OH ibogamine > ibogaine), but lower potencies were observed for the [3H]paroxetine binding sites on the 5-HT transporter. Ibogaine and 12-OH ibogamine were equipotent at vesicular monoamine and dopamine transporters. The metabolite demonstrated higher affinity at the kappa-1 receptor and lower affinity at the NMDA receptor complex compared to the parent drug. Quantitation of the regional brain levels of ibogaine and 12-OH ibogamine demonstrated micromolar concentrations of both the parent drug and metabolite in rat brain. Drug dependence results from distinct, but inter-related neurochemical adaptations, which underlie tolerance, sensitization and withdrawal. Ibogaine's ability to alter drug-seeking behavior may be due to combined actions of the parent drug and metabolite at key pharmacological targets that modulate the activity of drug reward circuits.

摘要

伊波加因治疗药物依赖的所谓疗效可能部分归因于一种活性代谢产物。伊波加因经历首过代谢,经O-去甲基化生成12-羟基伊波加明(12-OH伊波加明)。进行放射性配体结合试验以确定伊波加因和12-OH伊波加明的效价和选择性特征。将12-OH伊波加明与先前确定的伊波加因的主要分子靶点进行比较表明,该代谢产物的结合特征与母体药物相似,但并不相同。伊波加因和12-OH伊波加明在5-羟色胺转运体上的可卡因识别位点均表现出最高效价值。对于5-羟色胺转运体上的[3H]帕罗西汀结合位点,观察到相同的效价顺序(12-OH伊波加明>伊波加因),但效价较低。伊波加因和12-OH伊波加明在囊泡单胺和多巴胺转运体上的效价相当。与母体药物相比,该代谢产物在κ-1受体上表现出更高的亲和力,而在N-甲基-D-天冬氨酸受体复合物上表现出较低的亲和力。对大鼠脑中伊波加因和12-OH伊波加明区域脑水平的定量分析表明,母体药物和代谢产物在大鼠脑中的浓度均为微摩尔级。药物依赖源于不同但相互关联的神经化学适应性变化,这些变化是耐受性、敏化和戒断的基础。伊波加因改变觅药行为的能力可能归因于母体药物和代谢产物在调节药物奖赏回路活性的关键药理学靶点上的联合作用。

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J Anal Toxicol. 1995 Oct;19(6):427-34. doi: 10.1093/jat/19.6.427.
2
Mapping dopamine transporters in the human brain with novel selective cocaine analog [125I]RTI-121.用新型选择性可卡因类似物[125I]RTI-121对人脑多巴胺转运体进行成像。
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Autoradiographic studies of RP 62203, a potent 5-HT2 receptor antagonist. Pharmacological characterization of [3H]RP 62203 binding in the rat brain.
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