α2/3选择性GABAkine KRM-II-81的代谢、药代动力学和抗惊厥活性

IF 1.7 4区医学 Q3 PHARMACOLOGY & PHARMACY

Biopharmaceutics & Drug Disposition Pub Date : 2022-02-22 DOI:10.1002/bdd.2313

Lalit K. Golani, Branka Divović, Dishary Sharmin, Kamal P. Pandey, Md Yeunus Mian, Rok Cerne, Nicolas M. Zahn, Michelle J. Meyer, Veera V. N. P. B. Tiruveedhula, Jodi L. Smith, Xingjie Ping, Xiaoming Jin, Arnold Lippa, Jeffrey M. Schkeryantz, Leggy A. Arnold, James M. Cook, Miroslav M. Savić, Jeffrey M. Witkin

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引用次数: 2

摘要

咪唑二氮卓类药物(5-(8-乙基-6-(吡啶-2-基)- 4h -苯并[f]咪唑[1,5-α][1,4]二氮卓-3-基)恶唑或KRM-II-81)是一种新的α2/3选择性GABAkine (γ氨基丁酸a受体增强剂)，在临床前模型中具有抗惊厥、抗焦虑和抗刺激活性。减少代谢被用作可能延长KRM-II-81半衰期的手段。进行了体外和体内研究，以评估代谢负荷。KRM-II-81在肝细胞中的孵育揭示了恶唑环和二氮平环上的潜在代谢位点。这些位点是设计氘化类似物(D5-KRM-II-81)的目标，该类似物可能被评估为潜在的长效类似物。与计算机预测相反，大鼠体内D5-KRM-II-81的峰值血浆浓度并不显著高于口服KRM-II-81。此外，KRM-II-81的脑配置高于D5-KRM-II-81。两种化合物在血浆或脑中的半衰期没有统计学差异，但D5-KRM-II-81的tmax出现的时间略早于KRM-II-81。非代谢方面的考虑可能与D5-KRM-II-81暴露量没有增加有关。KRM-II-81上的其他代谢位点也可能不是当前氘化过程的目标。尽管缺乏增强暴露，但D5-KRM-II-81与KRM-II-81一样，在口服时可显著预防戊四氮引起的癫痫发作。本研究介绍了一种新的口服抗惊厥药GABAkine, D5-KRM-II-81。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Metabolism, pharmacokinetics, and anticonvulsant activity of a deuterated analog of the α2/3-selective GABAkine KRM-II-81

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Metabolism, pharmacokinetics, and anticonvulsant activity of a deuterated analog of the α2/3-selective GABAkine KRM-II-81

The imidazodiazepine, (5-(8-ethynyl-6-(pyridin-2-yl)-4H-benzo [f]imidazole[1,5-α][1,4]diazepin-3-yl) oxazole or KRM-II-81) is a new α2/3-selective GABAkine (gamma aminobutyric acid A receptor potentiator) with anticonvulsant, anxiolytic, and antinociceptive activity in preclinical models. Reducing metabolism was utilized as a means of potentially extending the half-life of KRM-II-81. In vitro and in vivo studies were conducted to evaluate metabolic liabilities. Incubation of KRM-II-81 in hepatocytes revealed sites of potential metabolism on the oxazole and the diazepine rings. These sites were targeted in the design of a deuterated analog (D5-KRM-II-81) that could be evaluated as a potentially longer-acting analog. In contrast to computer predictions, peak plasma concentrations of D5-KRM-II-81 in rats were not significantly greater than those produced by KRM-II-81 after oral administration. Furthermore, brain disposition of KRM-II-81 was higher than that of D5-KRM-II-81. The half-life of the two compounds in either plasma or brain did not statistically differ from one another but the t_max for D5-KRM-II-81 occurred slightly earlier than for KRM-II-81. Non-metabolic considerations might be relevant to the lack of increases in exposure by D5-KRM-II-81. Alternative sites of metabolism on KRM-II-81, not targeted by the current deuteration process, are also possible. Despite its lack of augmented exposure, D5-KRM-II-81, like KRM-II-81, significantly prevented seizures induced by pentylenetetrazol when given orally. The present findings introduce a new orally active anticonvulsant GABAkine, D5-KRM-II-81.

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来源期刊

Biopharmaceutics & Drug Disposition 医学-药学

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Biopharmaceutics & Drug Dispositionpublishes original review articles, short communications, and reports in biopharmaceutics, drug disposition, pharmacokinetics and pharmacodynamics, especially those that have a direct relation to the drug discovery/development and the therapeutic use of drugs. These includes: - animal and human pharmacological studies that focus on therapeutic response. pharmacodynamics, and toxicity related to plasma and tissue concentrations of drugs and their metabolites, - in vitro and in vivo drug absorption, distribution, metabolism, transport, and excretion studies that facilitate investigations related to the use of drugs in man - studies on membrane transport and enzymes, including their regulation and the impact of pharmacogenomics on drug absorption and disposition, - simulation and modeling in drug discovery and development - theoretical treatises - includes themed issues and reviews and exclude manuscripts on - bioavailability studies reporting only on simple PK parameters such as Cmax, tmax and t1/2 without mechanistic interpretation - analytical methods