Bucher Karsten, Belli Sara, Wunderli-Allenspach Heidi, Krämer Stefanie D
Department of Chemistry and Applied Biosciences, Institute of Pharmaceutical Sciences, ETH Zurich, Wolfgang-Pauli-Strasse 10, 8093, Zurich, Switzerland.
Pharm Res. 2007 Nov;24(11):1993-2004. doi: 10.1007/s11095-007-9326-0. Epub 2007 May 12.
There is evidence that cholesterol affects the ATPase and transport functions of P-glycoprotein (P-gp). To study the influence of cholesterol on P-gp in a well defined lipid environment, we reconstituted P-gp in egg phosphatidylcholine (PhC) and PhC/cholesterol proteoliposomes with negligible residual amounts of detergents.
P-gp proteoliposomes were prepared by continuous dialysis from micelles consisting of P-gp, lipids, sodium dodecyl sulfate and cholate. Basal and modulator-induced ATPase activities were studied in an established enzyme assay. Modulator affinities to P-gp and to the lipid bilayers were determined by equilibrium dialysis.
In the absence of cholesterol the basal ATPase activity was six fold lower than in the presence of 20 or 40% cholesterol, and no P-gp binding and ATPase induction was detected for the tested modulators verapamil and progesterone. In proteoliposomes containing 20 and 40% cholesterol, respectively, the modulators showed significant P-gp binding and ATPase activation. The concentration of the modulators for half maximal activation of the ATPase was higher with 40% than with 20% cholesterol.
Cholesterol influences P-gp in three ways: (a) it enhances its basal ATPase activity, (b) it renders P-gp sensitive towards the modulators verapamil and progesterone and (c) it affects the modulator concentration at half maximal ATPase activation.
有证据表明胆固醇会影响P-糖蛋白(P-gp)的ATP酶及转运功能。为了在明确的脂质环境中研究胆固醇对P-gp的影响,我们将P-gp重构成了残留去污剂含量可忽略不计的卵磷脂(PhC)和PhC/胆固醇蛋白脂质体。
通过连续透析由P-gp、脂质、十二烷基硫酸钠和胆酸盐组成的胶束来制备P-gp蛋白脂质体。在既定的酶分析中研究基础及调节剂诱导的ATP酶活性。通过平衡透析确定调节剂对P-gp和脂质双层的亲和力。
在没有胆固醇的情况下,基础ATP酶活性比存在20%或40%胆固醇时低6倍,并且对于测试的调节剂维拉帕米和孕酮,未检测到P-gp结合及ATP酶诱导。在分别含有20%和40%胆固醇的蛋白脂质体中,调节剂显示出显著的P-gp结合及ATP酶激活。ATP酶半数最大激活时的调节剂浓度在40%胆固醇时比20%胆固醇时更高。
胆固醇以三种方式影响P-gp:(a)增强其基础ATP酶活性,(b)使P-gp对调节剂维拉帕米和孕酮敏感,(c)影响ATP酶半数最大激活时的调节剂浓度。