Effects of detergents on P-glycoprotein atpase activity: differences in perturbations of basal and verapamil-dependent activities.

Cancer biochemistry biophysics Pub Date : 1998-06-01
S Orlowski, M A Selosse, C Boudon, C Micoud, L M Mir, J Belehradek, M Garrigos
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Abstract

P-glycoprotein (P-gp), a plasma membrane glycoprotein associated with the multidrug resistance phenotype, is responsible for the ATP-dependent efflux of various amphiphilic drugs. Using membrane vesicles prepared from the multidrug resistant cell line DC-3F/ADX, we studied the perturbation of the basal (i.e. in the absence of drug) and verapamil-dependent P-gp ATPase activities induced by various detergents, at non-solubilizing, as well as at solubilizing, concentrations. The progressive membrane solubilization with increasing detergent concentration was monitored by light scattering and centrifugation experiments. For non-solubilizing detergent concentrations, all tested detergents except DOC induced a partial inhibition of P-gp ATPase activity, which was not correlated with the amount of the various tested detergents incorporated in the membranes. Analysis of the verapamil-induced P-gp activation reveals that P-gp ATPase activity is differently modulated by the various detergents at non-solubilizing concentrations. Thus, specific interactions between P-gp and detergents are more likely to occur rather than a global membrane perturbation. After solubilization by the various tested detergents, the basal P-gp ATPase activity was virtually completely inhibited, except in the presence of CHAPS which was able to preserve this activity at a level comparable to that measured in native membranes. However, the verapamil-induced P-gp ATPase activation was lost during P-gp solubilization by CHAPS, but recovered after dilution of CHAPS below its critical micellar concentration. These observations indicate specific interactions between P-gp and CHAPS molecules within the mixed micelles. On the whole, our data evidencing specific interactions P-gp/detergents are consistent with the location of the drug transport sites on P-gp transmembrane domains.

洗涤剂对p -糖蛋白atp酶活性的影响:基础和维拉帕米依赖性活性扰动的差异。
p -糖蛋白(P-gp)是一种与多药耐药表型相关的质膜糖蛋白,负责各种两亲性药物的atp依赖性外排。利用多药耐药细胞系DC-3F/ADX制备的膜泡,我们研究了各种洗涤剂在非增溶浓度和增溶浓度下对基础(即在没有药物的情况下)和维拉帕米依赖性P-gp atp酶活性的扰动。通过光散射和离心实验监测了随着洗涤剂浓度的增加膜的增溶过程。对于非增溶性洗涤剂浓度,除DOC外,所有测试的洗涤剂都诱导P-gp atp酶活性的部分抑制,这与膜中掺入的各种测试洗涤剂的量无关。对维拉帕米诱导的P-gp活化的分析表明,在非溶解浓度下,不同的洗涤剂对P-gp atp酶活性的调节是不同的。因此,P-gp和洗涤剂之间的特定相互作用更有可能发生,而不是全局膜扰动。经过各种测试的洗涤剂溶解后,基础P-gp atp酶活性几乎完全被抑制,除了CHAPS的存在,它能够将这种活性保持在与天然膜相当的水平。然而,维拉帕米诱导的P-gp atp酶激活在CHAPS增溶P-gp过程中丢失,但在CHAPS稀释至其临界胶束浓度以下后恢复。这些观察结果表明,在混合胶束内P-gp和CHAPS分子之间存在特定的相互作用。总的来说,我们的数据证明了P-gp/洗涤剂的特定相互作用与P-gp跨膜结构域上药物运输位点的位置是一致的。
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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