无法形成类似MPP +物质的基于代谢的氟哌啶醇类似物的设计、合成与评估。

Design, synthesis, and evaluation of metabolism-based analogues of haloperidol incapable of forming MPP+-like species.

作者信息

Lyles-Eggleston M, Altundas R, Xia J, Sikazwe D M N, Fan P, Yang Q, Li S, Zhang W, Zhu X, Schmidt A W, Vanase-Frawley M, Shrihkande A, Villalobos A, Borne R F, Ablordeppey S Y

机构信息

Division of Basic Pharmaceutical Sciences, Florida A and M University, College of Pharmacy and Pharmaceutical Sciences, Tallahassee, Florida 32307, USA.

出版信息

J Med Chem. 2004 Jan 29;47(3):497-508. doi: 10.1021/jm0301033.

DOI:10.1021/jm0301033

PMID:14736232

Abstract

The long-term, irreversible, Parkinsonism-like side effects of haloperidol have been speculated to involve several mechanisms. More recently, it has been speculated that the metabolic transformation to MPP+-like species may contribute to the Parkinsonism-like side effects. Because BCPP+ and its reduced analogue have been shown to possess the potential to destroy dopamine receptors in the nigrostriatum, we have designed new analogues of haloperidol lacking the structural features necessary to form neurotoxic quaternary species but retaining their dopamine-binding capacity. The most potent agent at the D2 receptor, the homopiperidine analogue 11, was found to be equipotent to haloperidol. It was also of interest to identify analogues with DA binding profiles similar to that of clozapine at the dopamine receptor subtypes. Evaluation of the proposed agents shows that the ratio of D2 to D4 (2) binding of clozapine was mimicked by 7 [K(i)(D2) = 33, K(i)(D3) = 200, K(i)(D4) = 11 nM; K(i)(D2)/K(i)(D4) = 3] and 9 [K(i)(D2) = 44, K(i)(D3) = 170, K(i)(D4) = 24 nM; K(i)(D2)/K(i)(D4) = 2]. A preliminary in-vivo testing of compound 7 shows that its behavioral profile is similar to that of clozapine. This profile suggests that there is a need for further evaluation of these two synthetic agents and their enantiomers for efficacy and lack of catalepsy in animal models.

摘要

已有推测认为，氟哌啶醇的长期、不可逆、帕金森氏症样副作用涉及多种机制。最近，有人推测其代谢转化为类似MPP +的物质可能导致帕金森氏症样副作用。由于BCPP +及其还原类似物已被证明具有破坏黑质纹状体中多巴胺受体的潜力，我们设计了氟哌啶醇的新类似物，这些类似物缺乏形成神经毒性季铵类物质所需的结构特征，但保留了它们与多巴胺结合的能力。在D2受体上最有效的药物，即高哌啶类似物11，被发现与氟哌啶醇效力相当。鉴定出与氯氮平在多巴胺受体亚型上具有相似多巴胺结合谱的类似物也很有意义。对所提议药物的评估表明，氯氮平的D2与D4（2）结合比率被化合物7 [K(i)(D2) = 33，K(i)(D3) = 200，K(i)(D4) = 11 nM；K(i)(D2)/K(i)(D4) = 3] 和化合物9 [K(i)(D2) = 44，K(i)(D3) = 170，K(i)(D4) = 24 nM；K(i)(D2)/K(i)(D4) = 2] 模拟。化合物7的初步体内测试表明，其行为特征与氯氮平相似。这种特征表明，需要在动物模型中进一步评估这两种合成药物及其对映体的疗效和是否缺乏僵住症。

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无法形成类似MPP +物质的基于代谢的氟哌啶醇类似物的设计、合成与评估。

Design, synthesis, and evaluation of metabolism-based analogues of haloperidol incapable of forming MPP+-like species.

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