二氢四苯扎嗪异构体浓度在服用四苯扎嗪和瓦伦扎嗪后的差异。

Differences in Dihydrotetrabenazine Isomer Concentrations Following Administration of Tetrabenazine and Valbenazine.

机构信息

Neurocrine Biosciences, Inc., 12780 El Camino Real, San Diego, CA, 92130, USA.

出版信息

Drugs R D. 2017 Sep;17(3):449-459. doi: 10.1007/s40268-017-0202-z.

DOI:10.1007/s40268-017-0202-z

PMID:28776237

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5629142/

Abstract

BACKGROUND

Tetrabenazine (TBZ) activity is thought to result from four isomeric dihydrotetrabenazine (HTBZ) metabolites ([+]-α-HTBZ, [-]-α-HTBZ, [+]-β-HTBZ, [-]-β-HTBZ). Each isomer has a unique profile of vesicular monoamine transporter 2 (VMAT2) inhibition and off-target binding. Previously published data only report total isomer (α) and (β) concentrations. We developed a method to quantify the individual HTBZ isomers in samples from patients with Huntington's disease receiving TBZ. For comparison, concentrations of [+]-α-HTBZ, the single active metabolite shared by valbenazine (VBZ) and TBZ, were determined in samples from patients with tardive dyskinesia receiving VBZ.

METHODS

A liquid chromatography-tandem mass spectrometry (LC-MS/MS) method was developed and validated for quantitation of the four individual HTBZ isomers. Concentrations were determined in serum from patients with Huntington's disease administered TBZ and plasma from patients with tardive dyskinesia administered VBZ once daily.

RESULTS

In patients administered TBZ, [-]-α-HTBZ and [+]-β-HTBZ were the most abundant HTBZ isomers while [-]-β-HTBZ and [+]-α-HTBZ were present as minor metabolites. Only [+]-α-HTBZ was observed in patients administered VBZ.

CONCLUSIONS

Based on relative abundance and potency, [+]-β-HTBZ appears to be the primary contributor to VMAT2 inhibition by TBZ, a finding in contrast with the generally held assertion that [+]-α-HTBZ is the major contributor. [-]-α-HTBZ, the other abundant TBZ metabolite, has much lower VMAT2 inhibitory potency than [+]-β-HTBZ, but increased affinity for other CNS targets, which may contribute to off-target effects of TBZ. In contrast, pharmacological activity for VBZ is derived primarily from [+]-α-HTBZ. Individual HTBZ isomer concentrations provide a more clinically relevant endpoint for assessing on- and off-target effects of TBZ than total isomer concentrations.

摘要

背景

四苯丁嗪（TBZ）的活性被认为是由四种异构二氢四苯丁嗪（HTBZ）代谢物（[+]-α-HTBZ、[-]-α-HTBZ、[+]-β-HTBZ 和 [-]-β-HTBZ）引起的。每种异构体对囊泡单胺转运体 2（VMAT2）的抑制和非靶点结合都有独特的作用。以前发表的数据仅报告总异构体（α）和（β）浓度。我们开发了一种方法来定量测定接受 TBZ 治疗的亨廷顿病患者样本中的单个 HTBZ 异构体。为了比较，我们还测定了接受 VBZ 治疗的迟发性运动障碍患者样本中 VBZ 和 TBZ 共享的唯一活性代谢物[+]-α-HTBZ 的浓度。

方法

开发并验证了一种液相色谱-串联质谱（LC-MS/MS）方法来定量测定四种 HTBZ 异构体。测定了接受 TBZ 治疗的亨廷顿病患者的血清和接受 VBZ 治疗的迟发性运动障碍患者的血浆中的浓度。

结果

在接受 TBZ 治疗的患者中，[-]-α-HTBZ 和 [+]-β-HTBZ 是最丰富的 HTBZ 异构体，而[-]-β-HTBZ 和 [+]-α-HTBZ 则作为次要代谢物存在。仅在接受 VBZ 治疗的患者中观察到[+]-α-HTBZ。

结论

基于相对丰度和效力，[+]-β-HTBZ 似乎是 TBZ 抑制 VMAT2 的主要贡献者，这与普遍认为[+]-α-HTBZ 是主要贡献者的观点相反。[-]-α-HTBZ 是另一种丰富的 TBZ 代谢物，其对 VMAT2 的抑制效力比[+]-β-HTBZ 低得多，但对其他中枢神经系统靶点的亲和力增加，这可能导致 TBZ 的非靶点作用。相比之下，VBZ 的药理学活性主要来自[+]-α-HTBZ。与总异构体浓度相比，单个 HTBZ 异构体浓度为评估 TBZ 的靶内和靶外作用提供了更具临床相关性的终点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9213/5629142/a4179fa9642d/40268_2017_202_Fig1_HTML.jpg

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二氢四苯扎嗪异构体浓度在服用四苯扎嗪和瓦伦扎嗪后的差异。

Differences in Dihydrotetrabenazine Isomer Concentrations Following Administration of Tetrabenazine and Valbenazine.

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CONCLUSIONS

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