血脑屏障（BBB）的药物蛋白组学：基于 BBB 转运蛋白浓度、体外内在转运活性以及在小鼠血浆和脑中的未结合分数，重建 11 种 P 糖蛋白底物的体内脑分布。

Blood-brain barrier (BBB) pharmacoproteomics: reconstruction of in vivo brain distribution of 11 P-glycoprotein substrates based on the BBB transporter protein concentration, in vitro intrinsic transport activity, and unbound fraction in plasma and brain in mice.

机构信息

Division of Membrane Transport and Drug Targeting, Graduate School of Pharmaceutical Sciences, Tohoku University, Aoba, Aramaki, Aoba-ku, Sendai 980-8578, Japan.

出版信息

J Pharmacol Exp Ther. 2011 Nov;339(2):579-88. doi: 10.1124/jpet.111.184200. Epub 2011 Aug 9.

DOI:10.1124/jpet.111.184200

PMID:21828264

Abstract

The purpose of this study was to examine whether in vivo drug distribution to the brain can be reconstructed by integrating P-glycoprotein (P-gp)/mdr1a expression levels, P-gp in vitro activity, and drug unbound fractions in mouse plasma and brain. For 11 P-gp substrates, in vitro P-gp transport activities were determined by measuring transcellular transport across monolayers of mouse P-gp-transfected LLC-PK1 (L-mdr1a) and parental cells. P-gp expression amounts were determined by quantitative targeted absolute proteomics. Unbound drug fractions in plasma and brain were obtained from the literature and by measuring brain slice uptake, respectively. Brain-to-plasma concentration ratios (K(p brain)) and its ratios between wild-type and mdr1a/1b(-/-) mice (K(p brain) ratio) were obtained from the literature or determined by intravenous constant infusion. Unbound brain-to-plasma concentration ratios (K(p,uu,brain)) were estimated from K(p brain) and unbound fractions. Based on pharmacokinetic theory, K(p brain) ratios were reconstructed from in vitro P-gp transport activities and P-gp expression amounts in L-mdr1a cells and mouse brain capillaries. All reconstructed K(p brain) ratios were within a 1.6-fold range of observed values. K(p brain) then was reconstructed from the reconstructed K(p brain) ratios and unbound fractions. K(p,uu,brain) was reconstructed as the reciprocal of the reconstructed K(p brain) ratios. For quinidine, loperamide, risperidone, indinavir, dexamethasone, paclitaxel, verapamil, loratadine, and diazepam, the reconstructed K(p brain) and K(p,uu,brain) agreed with observed and estimated in vivo values within a 3-fold range, respectively. Thus, brain distributions of P-gp substrates can be reconstructed from P-gp expression levels, in vitro activity, and drug unbound fractions.

摘要

本研究旨在探讨通过整合 P-糖蛋白 (P-gp)/mdr1a 表达水平、P-gp 体外活性以及小鼠血浆和脑内药物未结合分数，是否可以重建体内药物向脑内的分布。对于 11 种 P-gp 底物，通过测量跨单层小鼠 P-gp 转染的 LLC-PK1（L-mdr1a）和亲本细胞的跨细胞转运，测定体外 P-gp 转运活性。通过定量靶向绝对蛋白质组学测定 P-gp 表达量。从文献中获得血浆和脑内未结合药物分数，并分别通过测量脑切片摄取来获得。从文献中或通过静脉恒速输注获得脑-血浆浓度比（K(p brain)）及其野生型和 mdr1a/1b(-/-) 小鼠之间的比值（K(p brain)比值）。从 K(p brain)和未结合分数估计未结合脑-血浆浓度比（K(p,uu,brain)）。基于药代动力学理论，从 L-mdr1a 细胞和小鼠脑毛细血管中的体外 P-gp 转运活性和 P-gp 表达水平重建 K(p brain)比值。所有重建的 K(p brain)比值均在观察值的 1.6 倍范围内。然后从重建的 K(p brain)比值和未结合分数重建 K(p brain)。将 K(p,uu,brain)重建为重建的 K(p brain)比值的倒数。对于奎尼丁、洛哌丁胺、利培酮、茚地那韦、地塞米松、紫杉醇、维拉帕米、氯雷他定和地西泮，重建的 K(p brain)和 K(p,uu,brain)分别在 3 倍范围内与观察到的和体内估计值一致。因此，可以从 P-gp 表达水平、体外活性和药物未结合分数重建 P-gp 底物的脑内分布。

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血脑屏障（BBB）的药物蛋白组学：基于 BBB 转运蛋白浓度、体外内在转运活性以及在小鼠血浆和脑中的未结合分数，重建 11 种 P 糖蛋白底物的体内脑分布。

Blood-brain barrier (BBB) pharmacoproteomics: reconstruction of in vivo brain distribution of 11 P-glycoprotein substrates based on the BBB transporter protein concentration, in vitro intrinsic transport activity, and unbound fraction in plasma and brain in mice.

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