环孢素A对依托泊苷组织分布及药代动力学的影响。
Effect of cyclosporine A on the tissue distribution and pharmacokinetics of etoposide.
作者信息
Cárcel-Trullols Jaime, Torres-Molina Francisca, Araico Amparo, Saadeddin Anas, Peris José Esteban
机构信息
Department of Pharmacy and Pharmaceutical Technology, Faculty of Pharmacy, University of Valencia, Avda. V.Andrés Estellés s/n, Burjassot, 46100, Spain.
出版信息
Cancer Chemother Pharmacol. 2004 Aug;54(2):153-60. doi: 10.1007/s00280-004-0784-3. Epub 2004 Apr 27.
PURPOSE
Cyclosporine A (CyA) is able to inhibit P-glycoprotein (P-gp) and to increase cytotoxicity of some anticancer drugs, including etoposide. However, the effect of CyA on the distribution of etoposide in normal tissues, which could affect their toxicity, has not been studied extensively. The purpose of this study was to investigate the effect of CyA on the pharmacokinetics and tissue distribution of etoposide in rats.
METHODS
Etoposide was administered as an i.v. bolus injection (3 mg) or as a constant-rate i.v. infusion (8 mg/h) 1 h after the beginning of infusion of CyA or saline. Animals were killed 1 h after the bolus administration or after the beginning of infusion of etoposide, and plasma and tissue (testicle, muscle, heart, lung, spleen, kidney, liver, colon, and intestine) concentrations of etoposide, blood concentrations of CyA were determined. All analyses were performed by HPLC.
RESULTS
Infusion of CyA (1 mg/h) in rats treated with an i.v. bolus of etoposide caused a decrease in the plasma clearance (5.4+/-2.1 vs 9.3+/-2.4 ml/min), and an increase in plasma and tissue concentrations of etoposide, but the tissue-to-plasma concentration ratios of etoposide were not affected. When etoposide was infused at a constant rate to reach a steady-state plasma level, coinfusion of CyA (10 mg/h) also caused a decrease in the plasma clearance (4.8+/-1.5 vs 9.8+/-4.7 ml/min), and an increase in plasma and tissue concentrations of etoposide. Only lung and spleen showed tissue-to-plasma ratios of etoposide significantly higher than obtained in rats coinfused with saline, but the differences were small.
CONCLUSIONS
The higher tissue concentrations of etoposide caused by CyA administration were mainly a direct consequence of the higher plasma concentration resulting from a decrease in the clearance of etoposide rather than a consequence of changes in the tissue distribution of etoposide. Extrapolation of the results obtained in rats to clinical practice suggests that the coadministration of etoposide and CyA would not lead to an increase in the toxicity of etoposide if the dose were decreased in the same proportion as clearance of etoposide is decreased by CyA administration.
目的
环孢素A(CyA)能够抑制P-糖蛋白(P-gp),并增加包括依托泊苷在内的某些抗癌药物的细胞毒性。然而,CyA对依托泊苷在正常组织中分布的影响(这可能会影响其毒性)尚未得到广泛研究。本研究的目的是探讨CyA对大鼠体内依托泊苷药代动力学和组织分布的影响。
方法
在输注CyA或生理盐水1小时后,依托泊苷以静脉推注(3mg)或静脉恒速输注(8mg/h)的方式给药。在推注给药后1小时或依托泊苷输注开始后,处死动物,测定血浆和组织(睾丸、肌肉、心脏、肺、脾脏、肾脏、肝脏、结肠和小肠)中依托泊苷的浓度以及血液中CyA的浓度。所有分析均通过高效液相色谱法进行。
结果
在接受依托泊苷静脉推注的大鼠中输注CyA(1mg/h)导致血浆清除率降低(5.4±2.1对9.3±2.4ml/min),依托泊苷的血浆和组织浓度升高,但依托泊苷的组织与血浆浓度比未受影响。当以恒定速率输注依托泊苷以达到稳态血浆水平时,同时输注CyA(10mg/h)也导致血浆清除率降低(4.8±1.5对9.8±4.7ml/min),依托泊苷的血浆和组织浓度升高。只有肺和脾脏的依托泊苷组织与血浆比显著高于同时输注生理盐水的大鼠,但差异较小。
结论
CyA给药导致依托泊苷在组织中的浓度升高主要是依托泊苷清除率降低导致血浆浓度升高的直接结果,而非依托泊苷组织分布变化的结果。将大鼠实验结果外推至临床实践表明,如果依托泊苷的剂量按照与CyA给药导致其清除率降低相同的比例减少,那么依托泊苷与CyA联合给药不会导致依托泊苷毒性增加。
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