P-糖蛋白的底物及抑制剂PSC833在不同血清浓度中的可获得性。

Availability of PSC833, a substrate and inhibitor of P-glycoproteins, in various concentrations of serum.

作者信息

Smith A J, Mayer U, Schinkel A H, Borst P

机构信息

Division of Molecular Biology, The Netherlands Cancer Institute, Amsterdam.

出版信息

J Natl Cancer Inst. 1998 Aug 5;90(15):1161-6. doi: 10.1093/jnci/90.15.1161.

DOI:10.1093/jnci/90.15.1161

PMID:9701366

Abstract

BACKGROUND

P-glycoproteins are membrane-associated transporters that can render cells resistant to a variety of chemotherapeutic drugs. Reversal agents are (preferably nontoxic) drugs that can inhibit these P-glycoproteins and thereby overcome multidrug resistance. PSC833, a cyclosporin A analog, is a reversal agent that has shown potential in in vitro experiments and in clinical trials. We tested PSC833 to determine whether it is a transported substrate of human and murine P-glycoproteins associated with multidrug resistance (encoded by the human MDR1 gene and its murine homolog, mdr1a) and whether it can completely inhibit these P-glycoproteins under simulated in vivo conditions.

METHODS

Monolayers of polarized LLC-PK1 pig kidney cells transfected with complementary DNA containing either MDR1 or mdr1a sequences were used to measure the directional transport of P-glycoprotein substrates under various serum conditions.

RESULTS

In contrast to two previous studies, we found that PSC833 is transported by both the MDR1 and the mdr1a P-glycoproteins, albeit at a low rate. PSC833 has a very high affinity for the MDR1 P-glycoprotein, and its Michaelis constant (Km) for transport is 50 nM, fourfold lower than for cyclosporin A. Inhibition of drug transport by PSC833 is approximately eightfold less effective in 100% fetal bovine serum than in tissue culture medium containing 10% serum. The concentration of PSC833 necessary to fully inhibit transport of digoxin and paclitaxel (Taxol) under complete (i.e., 100%) serum conditions is higher than the plasma concentrations achieved in clinical trials.

CONCLUSIONS

Although PSC833 binds efficiently to the MDR1 P-glycoprotein and is released only sluggishly, the high concentrations of PSC833 necessary to inhibit this P-glycoprotein under complete serum conditions in our in vitro system suggest that it may be difficult for PSC833 alone to produce total inhibition of P-glycoprotein activity in patients.

摘要

背景

P-糖蛋白是与膜相关的转运蛋白，可使细胞对多种化疗药物产生耐药性。逆转剂是（最好无毒的）能够抑制这些P-糖蛋白从而克服多药耐药性的药物。PSC833是一种环孢素A类似物，是一种在体外实验和临床试验中均显示出潜力的逆转剂。我们对PSC833进行了测试，以确定它是否是与多药耐药性相关的人及小鼠P-糖蛋白（由人类MDR1基因及其小鼠同源基因mdr1a编码）的转运底物，以及它在模拟体内条件下是否能完全抑制这些P-糖蛋白。

方法

用含有MDR1或mdr1a序列的互补DNA转染的极化LLC-PK1猪肾细胞单层，用于在各种血清条件下测量P-糖蛋白底物的定向转运。

结果

与之前的两项研究不同，我们发现PSC833可被MDR1和mdr1a P-糖蛋白转运，尽管转运速率较低。PSC833对MDR1 P-糖蛋白具有非常高的亲和力，其转运的米氏常数（Km）为50 nM，比环孢素A低四倍。在100%胎牛血清中，PSC833对药物转运的抑制作用比对含10%血清的组织培养基中的抑制作用约低八倍。在完全（即100%）血清条件下，完全抑制地高辛和紫杉醇（泰素）转运所需的PSC833浓度高于临床试验中达到的血浆浓度。

结论

尽管PSC833能有效结合MDR1 P-糖蛋白且释放缓慢，但在我们的体外系统中，在完全血清条件下抑制该P-糖蛋白所需的高浓度PSC833表明，仅靠PSC833可能难以在患者体内完全抑制P-糖蛋白活性。

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P-糖蛋白的底物及抑制剂PSC833在不同血清浓度中的可获得性。

Availability of PSC833, a substrate and inhibitor of P-glycoproteins, in various concentrations of serum.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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