Species difference in paclitaxel disposition correlated with poor pharmacological efficacy translation from mice to humans.

IF 3.1 Q2 PHARMACOLOGY & PHARMACY

Clinical Pharmacology : Advances and Applications Pub Date : 2018-11-08 eCollection Date: 2018-01-01 DOI:10.2147/CPAA.S185449

Ying Fei Li, Chengyue Zhang, Simon Zhou, Miao He, Huixia Zhang, Nianhang Chen, Feng Li, Xin Luan, Manjunath Pai, Hebao Yuan, Duxin Sun, Yan Li

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引用次数: 5

Abstract

Background: Paclitaxel (PTX) products currently approved by the Food and Drug Administration include Kolliphor EL-paclitaxel micelles (KoEL-paclitaxel, Taxol) and nanoparticle albumin-bound paclitaxel (nab-paclitaxel, Abraxane). Despite containing the same cytotoxic agent, different PTX formulations have distinct pharmacological responses and indications in patients with cancer. Several novel PTX delivery vehicles that have shown superior efficacy to Taxol in animal models failed to demonstrate efficacy in Phase II/III human clinical trials.

Materials and methods: A 10 mg/kg IV dose of KoEL-paclitaxel or nab-paclitaxel was administered to mice, and the pharmacokinetics (PK) profile of PTX in mice was then compared with the human PK profile from clinical studies. Population PK model and simulation was used to delineate the distribution and elimination characteristics in each species. In addition, tumor shrinkage was measured after weekly administration of both formulations in mouse xenograft model.

Results: Our pharmacokinetic modeling results suggested that elimination predominates over distribution in driving PTX disposition in mice, hence restricting the PTX tissue accumulation. Moreover, the rapid elimination of PTX in mice minimized the different formulation effects on PTX tissue distribution, which is believed to link to the superior efficacy of nab-paclitaxel over KoEL-paclitaxel seen in human. In contrast to mice, PTX distribution predominates over elimination in human, and the decline in plasma PTX concentration reflected the deeper tissue distribution by nab-paclitaxel.

Conclusion: This species difference in PTX distribution and elimination hinders a simple direct extrapolation from animals to humans. Therefore, species difference in drug distribution and elimination should be carefully assessed during translational drug development.

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紫杉醇配置的物种差异与从小鼠到人类的不良药理疗效转化相关。

背景:目前美国食品和药物管理局批准的紫杉醇(PTX)产品包括Kolliphor el -紫杉醇胶束(KoEL-paclitaxel, Taxol)和纳米颗粒白蛋白结合紫杉醇(nab-paclitaxel, Abraxane)。尽管含有相同的细胞毒剂，不同的PTX制剂在癌症患者中有不同的药理反应和适应症。几种新型PTX给药载体在动物模型中显示出优于紫杉醇的疗效，但在II/III期人体临床试验中未能显示出疗效。材料与方法:采用10 mg/kg剂量的koel -紫杉醇或nab-紫杉醇给药小鼠，比较PTX在小鼠体内的药代动力学(PK)谱与临床研究的人药代动力学(PK)谱。采用种群PK模型和模拟方法，描绘了各物种的分布和消灭特征。此外，在小鼠异种移植模型中，每周给药两种制剂后测量肿瘤缩小。结果:我们的药代动力学模型结果表明，在驱动PTX在小鼠体内的配置中，消除比分布更重要，从而限制了PTX在组织中的积累。此外，PTX在小鼠体内的快速消除将不同配方对PTX组织分布的影响降至最低，这被认为与nab-紫杉醇优于koel -紫杉醇在人体中的效果有关。与小鼠相比，PTX在人体内的分布大于消除，血浆中PTX浓度的下降反映了nab-紫杉醇在更深层次组织中的分布。结论:PTX分布和消除的物种差异阻碍了从动物到人类的简单直接推断。因此，在转译药物开发过程中，应仔细评估药物分布和消除的物种差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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