重新审视阿替洛尔作为低被动通透性标志物的情况。

Revisiting atenolol as a low passive permeability marker.

作者信息

Chen Xiaomei, Slättengren Tim, de Lange Elizabeth C M, Smith David E, Hammarlund-Udenaes Margareta

机构信息

Department of Pharmaceutical Biosciences, Translational PKPD Research Group, Uppsala University, Box 591, SE-75124, Uppsala, Sweden.

Department of Pharmaceutical Sciences, College of Pharmacy, University of Michigan, Ann Arbor, MI, 48109, USA.

出版信息

Fluids Barriers CNS. 2017 Oct 31;14(1):30. doi: 10.1186/s12987-017-0078-x.

DOI:10.1186/s12987-017-0078-x

PMID:29089037

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5664587/

Abstract

BACKGROUND

Atenolol, a hydrophilic beta blocker, has been used as a model drug for studying passive permeability of biological membranes such as the blood-brain barrier (BBB) and the intestinal epithelium. However, the extent of S-atenolol (the active enantiomer) distribution in brain has never been evaluated, at equilibrium, to confirm that no transporters are involved in its transport at the BBB.

METHODS

To assess whether S-atenolol, in fact, depicts the characteristics of a low passive permeable drug at the BBB, a microdialysis study was performed in rats to monitor the unbound concentrations of S-atenolol in brain extracellular fluid (ECF) and plasma during and after intravenous infusion. A pharmacokinetic model was developed, based on the microdialysis data, to estimate the permeability clearance of S-atenolol into and out of brain. In addition, the nonspecific binding of S-atenolol in brain homogenate was evaluated using equilibrium dialysis.

RESULTS

The steady-state ratio of unbound S-atenolol concentrations in brain ECF to that in plasma (i.e., K) was 3.5% ± 0.4%, a value much less than unity. The unbound volume of distribution in brain (V) of S-atenolol was also calculated as 0.69 ± 0.10 mL/g brain, indicating that S-atenolol is evenly distributed within brain parenchyma. Lastly, equilibrium dialysis showed limited nonspecific binding of S-atenolol in brain homogenate with an unbound fraction (f) of 0.88 ± 0.07.

CONCLUSIONS

It is concluded, based on K being much smaller than unity, that S-atenolol is actively effluxed at the BBB, indicating the need to re-consider S-atenolol as a model drug for passive permeability studies of BBB transport or intestinal absorption.

摘要

背景

阿替洛尔是一种亲水性β受体阻滞剂，已被用作研究生物膜如血脑屏障（BBB）和肠上皮细胞被动通透性的模型药物。然而，从未在平衡状态下评估过S-阿替洛尔（活性对映体）在脑内的分布程度，以确认血脑屏障处其转运过程中没有转运体参与。

方法

为了评估S-阿替洛尔在血脑屏障处是否实际上表现出低被动渗透性药物的特征，在大鼠中进行了一项微透析研究，以监测静脉输注期间和之后脑细胞外液（ECF）和血浆中S-阿替洛尔的未结合浓度。基于微透析数据建立了药代动力学模型，以估计S-阿替洛尔进出脑的通透清除率。此外，使用平衡透析评估S-阿替洛尔在脑匀浆中的非特异性结合。

结果

脑ECF中未结合的S-阿替洛尔浓度与血浆中未结合的S-阿替洛尔浓度的稳态比值（即K）为3.5%±0.4%，该值远小于1。S-阿替洛尔在脑中的未结合分布容积（V）也计算为0.69±0.10 mL/g脑，表明S-阿替洛尔在脑实质内均匀分布。最后，平衡透析显示S-阿替洛尔在脑匀浆中的非特异性结合有限，未结合分数（f）为0.88±0.07。

结论

基于K远小于1，得出结论：S-阿替洛尔在血脑屏障处被主动外排，这表明需要重新考虑将S-阿替洛尔作为血脑屏障转运或肠道吸收被动通透性研究的模型药物。

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重新审视阿替洛尔作为低被动通透性标志物的情况。

Revisiting atenolol as a low passive permeability marker.

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出版信息

BACKGROUND

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CONCLUSIONS

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