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首页> 外文期刊>Drug Metabolism and Disposition: The Biological Fate of Chemicals >Quantitative investigation of the brain-to-cerebrospinal fluid unbound drug concentration ratio under steady-state conditions in rats using a pharmacokinetic model and scaling factors for active efflux transporters
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Quantitative investigation of the brain-to-cerebrospinal fluid unbound drug concentration ratio under steady-state conditions in rats using a pharmacokinetic model and scaling factors for active efflux transporters

机译:使用药代动力学模型和比例因子对主动外排转运蛋白在大鼠稳态下定量研究脑与脑脊髓液未结合药物浓度比

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摘要

A pharmacokinetic model was constructed to explain the difference in brain- and cerebrospinal fluid (CSF)-to-plasma and brainto- CSF unbound drug concentration ratios (Kp,uu,brain, Kp,uu,CSF, and K p,uu,CSF/brain, respectively) of drugs under steady-state conditions in rats. The passive permeability across the blood-brain barrier (BBB), PS 1, was predicted by two methods using log(D/molecular Weight 0.5) for PS1 (1) or the partition coefficient in octanol/water at pH 7.4 (LogD), topologic van der Waals polar surface area, and van der Waals surface area of the basic atoms for PS1 (2). The coefficients of each parameter were determined using previously reported in situ rat BBB permeability. Active transport of drugs by P-glycoprotein (P-gp) and breast cancer resistance protein (Bcrp) measured in P-gp- and Bcrp-overexpressing cells was extrapolated to in vivo by introducing scaling factors. Brain- and CSF-toplasma unbound concentration ratios (K p,uu,brain and Kp,uu,CSF, respectively) of 19 compounds, including P-gp and Bcrp substrates (daidzein, dantrolene, flavopiridol, genistein, loperamide, quinidine, and verapamil), were simultaneously fitted to the equations in a three-compartment model comprising blood, brain, and CSF compartments. The calculated Kp,uu,brain and Kp,uu,CSF of 17 compounds were within a factor of three of experimental values. K p,uu,CSF values of genistein and loperamide were outliers of the prediction, and Kp,uu,brain of dantrolene also became an outlier when PS1 (2) was used. Kp,uu,CSF/brain of the 19 compounds was within a factor of three of experimental values. In conclusion, the K p,uu,CSF/brain of drugs, including P-gp and Bcrp substrates, could be successfully explained by a kinetic model using scaling factors combined with in vitro evaluation of P-gp and Bcrp activities.
机译:建立了药代动力学模型来解释脑和脑脊髓液(CSF)与血浆和脑与CSF的未结合药物浓度比(Kp,uu,大脑,Kp,uu,CSF和K p,uu,CSF)的差异/稳态分别在大鼠中的药物。通过使用PS1(1)的log(D /分子量0.5)或在pH 7.4的辛醇/水中的分配系数,通过两种方法预测穿过血脑屏障(BBB)PS 1的被动渗透性,拓扑范德华力的极性表面积和PS1基本原子的范德华力表面积(2)。使用先前报道的原位大鼠BBB通透性确定每个参数的系数。通过引入缩放因子将通过P-gp和Bcrp过表达的细胞中测得的P-糖蛋白(P-gp)和乳腺癌抗性蛋白(Bcrp)主动转运药物到体内。 19种化合物的脑和CSF血浆未结合浓度比(分别为K p,uu,脑和Kp,uu,CSF),包括P-gp和Bcrp底物(黄豆苷元,黄嘌呤,黄酮吡啶醇,染料木黄酮,洛哌丁胺,奎尼丁和维拉帕米(Verapamil))同时拟合到包括血液,大脑和脑脊液腔室的三腔模型中。计算出的17种化合物的Kp,uu,脑和Kp,uu,CSF在实验值的三倍之内。金雀异黄素和洛哌丁胺的K p,uu,CSF值是预测值的离群值,当使用PS1(2)时,丹特罗的Kp,uu,脑也变为离群值。 19种化合物的Kp,uu,CSF /脑在实验值的三倍之内。总之,药物的K p,uu,CSF /脑,包括P-gp和Bcrp底物,可以通过使用比例因子的动力学模型结合P-gp和Bcrp活性的体外评估来成功解释。

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