食蟹猴和大鼠之间依托泊苷与地高辛肠道吸收机制的种属差异。

Species difference in intestinal absorption mechanism of etoposide and digoxin between cynomolgus monkey and rat.

作者信息

Nishimura T, Kato Y, Amano N, Ono M, Kubo Y, Kimura Y, Fujita H, Tsuji A

机构信息

Division of Pharmaceutical Sciences, Graduate School of Natural Science and Technology, Kanazawa University, Kakuma-machi, Kanazawa 920-1192, Japan.

出版信息

Pharm Res. 2008 Nov;25(11):2467-76. doi: 10.1007/s11095-008-9658-4. Epub 2008 Jul 15.

DOI:10.1007/s11095-008-9658-4

PMID:18626752

Abstract

PURPOSE

The oral bioavailability of some therapeutic agents is markedly lower in cynomolgus monkeys than in humans. We investigated small-intestinal absorption of the P-glycoprotein (P-gp) substrates etoposide and digoxin in monkeys to clarify the influence of efflux transport on their intestinal permeability.

METHODS

The pharmacokinetics of etoposide and digoxin was examined in monkeys and rats after oral and intravenous administration. Intestinal permeability and segmental differences in permeability were investigated with an Ussing-type chamber.

RESULTS

The bioavailability of etoposide was 12.9 and 13.9% in monkeys and rats, respectively. Total body clearance of etoposide in monkeys was much less than hepatic blood flow, suggesting that the bioavailability would be limited at intestinal absorption. Marked vectorial transport of etoposide in the secretory direction was observed in rats, especially in the lower small intestine, and segmental differences were consistent with the distribution of P-gp expression. Vectorial transport was minimal in monkey small intestine. Our kinetic analysis indicated that P-gp contributes little to the intestinal permeability of etoposide and digoxin in monkeys, and apical uptake is rate-limiting.

CONCLUSION

Low bioavailability of etoposide in monkeys is due to poor intestinal uptake resulting from low influx from the apical side, rather than secretion via P-gp.

摘要

目的

某些治疗药物在食蟹猴中的口服生物利用度明显低于人类。我们研究了食蟹猴中P-糖蛋白（P-gp）底物依托泊苷和地高辛的小肠吸收情况，以阐明外排转运对其肠道通透性的影响。

方法

在食蟹猴和大鼠口服及静脉给药后检测依托泊苷和地高辛的药代动力学。使用Ussing型小室研究肠道通透性及通透性的节段差异。

结果

依托泊苷在食蟹猴和大鼠中的生物利用度分别为12.9%和13.9%。食蟹猴中依托泊苷的全身清除率远低于肝血流量，提示其生物利用度在肠道吸收时会受到限制。在大鼠中观察到依托泊苷在分泌方向有明显的向量转运，尤其是在小肠下段，且节段差异与P-gp表达分布一致。食蟹猴小肠中的向量转运极小。我们的动力学分析表明，P-gp对食蟹猴中依托泊苷和地高辛的肠道通透性影响很小，顶端摄取是限速因素。

结论

依托泊苷在食蟹猴中生物利用度低是由于顶端侧流入量低导致肠道摄取不良，而非通过P-gp分泌所致。

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食蟹猴和大鼠之间依托泊苷与地高辛肠道吸收机制的种属差异。

Species difference in intestinal absorption mechanism of etoposide and digoxin between cynomolgus monkey and rat.

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出版信息

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