Optimization of a drug transporter probe cocktail: potential screening tool for transporter‐mediated drug–drug interactions

Stopfer Peter; Giessmann Thomas; Hohl Kathrin; Hutzel Sabine; Schmidt Sven; Gansser Dietmar; Ishiguro Naoki; Taub Mitchell E.; Sharma Ashish; Ebner Thomas; Müller Fabian

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Optimization of a drug transporter probe cocktail: potential screening tool for transporter‐mediated drug–drug interactions

机译：药物运输探针鸡尾酒的优化：用于转运蛋白介导的药物 - 药物相互作用的潜在筛选工具

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Aims Previous pharmacokinetic characterization of a transporter probe cocktail containing digoxin (P‐gp), furosemide (OAT1, OAT3), metformin (OCT2, MATE1, MATE2‐K) and rosuvastatin (OATP1B1, OATP1B3, BCRP) in healthy subjects showed increases in rosuvastatin systemic exposure compared to rosuvastatin alone. In this trial, the doses of metformin and furosemide as putative perpetrators were reduced to eliminate their drug–drug interaction (DDI) with rosuvastatin. Methods In a randomized, open‐label, single‐centre, five‐treatment, five‐period crossover trial, 30 healthy male subjects received as reference treatments separately 0.25?mg digoxin, 1?mg furosemide, 10?mg metformin and 10?mg rosuvastatin, and as test treatment all four drugs administered together as a cocktail. Primary pharmacokinetic endpoints were AUC 0‐tz (area under the plasma concentration–time curve from time zero to the last quantifiable concentration) and C max (maximum plasma concentration) of each probe drug. Results Geometric mean ratios and 90% confidence intervals of test (cocktail) to reference (single drug) for AUC 0‐tz were 96.4% (88.2–105.3%) for digoxin, 102.6% (93.8–112.3%) for furosemide, 97.5% (93.5–101.6%) for metformin and 105.0% (96.4–114.4%) for rosuvastatin, indicating lack of interaction. The same analysis for C max and for pharmacokinetic parameters of urinary excretion of all cocktail components also indicated no DDI. Conclusions Digoxin (0.25?mg), furosemide (1?mg), metformin (10?mg) and rosuvastatin (10?mg) exhibit no mutual pharmacokinetic interactions and are well tolerated administered as a cocktail. The cocktail is thus optimized and has the potential to be used as a screening tool for clinical investigation of transporter‐mediated DDI.

机译：目的先前的药代动力学表征含有地高辛（P-GP），呋塞米（OAT1，OAT3），Metformin（Oct2，Mate1，Mate2-K）和Rosuvastatin（OATP1B1，BCRP）在健康受试者中的转运探针鸡尾酒表现出在罗萨伐他汀（Rosuvastatin）增加单独的Rosuvastatin相比，全身暴露。在该试验中，减少了二甲双胍和呋塞米的剂量，以消除与罗苏伐他汀的药物 - 药物相互作用（DDI）。方法在随机，开放标签，单中心，五个治疗，五周流交叉试验中，30个健康男性受试者作为参考处理分别0.25μmgOxin，1？Mg Forosemide，10？Mg二甲双胍和10？Mg Rosuvastatin，以及作为测试治疗，所有四种药物一起服用作为鸡尾酒。初级药代动力学终点是AUC 0-TZ（从血浆浓度 - 时间曲线下的区域，从时间为零到最后一个量化的浓度）和每种探针药物的C max（最大血浆浓度）。结果AUC 0-TZ对参考（单药物）的几何平均比率和90％的试验（单药）的置信区间隔为DIGOxin的96.4％（88.2-105.3％），呋塞米的102.6％（93.8-112.3％），97.5％（93.5-101.6％）二甲双胍和罗苏伐他汀的105.0％（96.4-114.4％），表明缺乏相互作用。对于所有鸡尾酒组分的尿排泄的C max和药代动力学参数的同样的分析也表明了没有DDI。结论地形素（0.25≤mg），呋塞米（1？mg），二甲双胍（10×mg）和罗萨伐他汀（10〜mg）表现出不均有药代动力学相互作用，并作为鸡尾酒施用良好的耐受性。因此优化了鸡尾酒，并且具有潜力用作转运蛋白介导的DDI的临床研究的筛选工具。

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来源
《British Journal of Clinical Pharmacology》 |2018年第9期|共9页
作者
Stopfer Peter; Giessmann Thomas; Hohl Kathrin; Hutzel Sabine; Schmidt Sven; Gansser Dietmar; Ishiguro Naoki; Taub Mitchell E.; Sharma Ashish; Ebner Thomas; Müller Fabian;
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作者单位

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Kobe Pharma Research InstituteNippon Boehringer Ingelheim Co. Ltd.Chuo‐ku Kobe City Japan;

Boehringer Ingelheim Pharmaceuticals Inc.900 Ridgebury Road Ridgefield CT 06877 USA;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

Boehringer Ingelheim Pharma GmbH &

Co. KGBirkendorfer Str. 65 88397 Biberach an der Riss Germany;

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原文格式 PDF
正文语种 eng
中图分类药理学;
关键词
drug interactions; drug transporters; pharmacokinetics; Phase I;

机译：药物相互作用;药物转运蛋白;药代动力学;阶段I;

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专利

1. Optimization of a drug transporter probe cocktail: potential screening tool for transporter‐mediated drug–drug interactions [J] . Peter Stopfer, Thomas Giessmann, Kathrin Hohl, British journal of clinical pharmacology . 2018,第9期

机译：优化转运蛋白探针混合物：转运蛋白介导的药物相互作用的潜在筛选工具
2. Optimization of a drug transporter probe cocktail: potential screening tool for transporter‐mediated drug–drug interactions [J] . Stopfer Peter, Giessmann Thomas, Hohl Kathrin, British Journal of Clinical Pharmacology . 2018,第9期

机译：药物转运探针鸡尾酒的优化：用于转运蛋白介导的药物 - 药物相互作用的潜在筛选工具
3. Optimization of a drug transporter probe cocktail: potential screening tool for transporter‐mediated drug–drug interactions [J] . Stopfer Peter, Giessmann Thomas, Hohl Kathrin, British Journal of Clinical Pharmacology . 2018,第9期

机译：药物运输探针鸡尾酒的优化：用于转运蛋白介导的药物 - 药物相互作用的潜在筛选工具
4. EVALUATION OF THE TRANSCELLULAR TRANSPORT OF CERIVASTATIN ACROSS A DOUBLE-TRANSFECTED MDCKII CELL MONOLAYER EXPRESSING HUMAN OATP2 (UPTAKE TRANSPORTER) AND MRP2 (EFFLUX TRANSPORTER): A NEW SCREENING SYSTEM FOR TRANSEPITHELIAL TRANSPORT OF DRUGS [C] . S. Matsushima, K. Maeda, Y. Shitara, Proceedings of the 29th Annual Meeting of the Controlled Release Society . 2002

机译：跨人表达人OATP2（摄取转运蛋白）和MRP2（外排转运蛋白）的双通道MDCKII细胞单层转运中西立伐他汀跨细胞转运的评估：药物经皮转运的新筛选系统
5. Modulation of multidrug transporters. A potential pharmacokinetic mechanism of clinical drug -drug interactions: Digoxin as a model. [D] . Guan, Lingling. 2000

机译：多种药物转运蛋白的调节。临床药物相互作用的潜在药代动力学机制：以地高辛为模型。
6. Optimization of a drug transporter probe cocktail: potential screening tool for transporter‐mediated drug–drug interactions [O] . Peter Stopfer, Thomas Giessmann, Kathrin Hohl, 2018

机译：优化药物转运蛋白探针混合物：转运蛋白介导的药物相互作用的潜在筛选工具
7. Entecavir interacts with influx transporters hOAT1, hCNT2, hCNT3, but not with hOCT2: the potential for renal transporter-mediated cytotoxicity and drug-drug interactions [O] . František eTrejtnar, Jana eMandíková, Marie eVolková, 2016

机译：恩替卡韦与流入转运蛋白hOaT1，hCNT2，hCNT3相互作用，但不与hOCT2相互作用：肾转运蛋白介导的细胞毒性和药物 - 药物相互作用的可能性

Optimization of a drug transporter probe cocktail: potential screening tool for transporter‐mediated drug–drug interactions

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