Studies on absorption mechanism and pharmacokinetic properties of albendazole-bile acid conjugate: In vivo and in vitro.

Zhimei Guo, Shizhen Tang, Kaili Nie, Jingshuai Liu, Chunhui Hu
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Abstract

Purpose: To improve the oral bioavailability of albendazole (ABZ), a series of albendazole-bile acid conjugates (ABCs) were synthesized. ABC's transmembrane transport mechanism and in vivo pharmacokinetic properties were preliminarily studied.

Methods: The transmembrane transport mechanism of ABCs was studied using the Caco-2 monolayer cell model and intestinal perfusion model. The concentration of ABCs and ABZ were evaluated using High-Performance Liquid Chromatography (HPLC) and HPLC-Mass Spectrometry (HPLC-MS/MS).

Results: Compared to ABZ, better permeability was observed for different types and concentrations of ABCs using the Caco-2 monolayer cell model, with ABC-C8 showing the highest permeability. The transmembrane transport of ABCs was affected by ASBT inhibitors, indicating an ASBT-mediated active transport mechanism. Additionally, introducing cholic acid resulted in ABZ no longer being a substrate for P-gp, MRP2, and BCRP, effectively reversing ABZ efflux. In vivo unidirectional intestinal perfusion results in rats showed that ABCs altered the absorption site of ABZ from the jejunum to the ileum. The absorption efficiency of ABCs in each intestinal segment was higher than that of ABZ, and the transmembrane transport efficiency decreased with increasing concentrations of ASBT inhibitors. This further confirmed the presence of both passive diffusion and ASBT-mediated active transport mechanisms in the transport of ABCs. The solubility of ABCs in gastric juice and pharmacokinetics in rats showed that ABZ-C4 exhibited enhanced solubility. Moreover, ABCs significantly increased oral bioavailability compared to ABZ, with ABC-C4 showing an approximately 31-fold increase in bioavailability.

Conclusion: The transmembrane transport mechanism of ABCs involves a combination of ASBT-mediated active transport and passive diffusion. Moreover, the incorporation of BAs successfully reverses the efflux of ABZ by efflux proteins. Among the synthesized conjugates, ABC-C4 demonstrated superior dissolution behavior both in vitro and in vivo.

阿苯达唑-胆汁酸共轭物的吸收机制和药代动力学特性研究:体内和体外
目的:为提高阿苯达唑(ABZ)的口服生物利用度,合成了一系列阿苯达唑-胆汁酸共轭物(ABCs)。初步研究了ABC的跨膜转运机制和体内药代动力学特性:方法:利用 Caco-2 单层细胞模型和肠道灌注模型研究了 ABCs 的跨膜转运机制。采用高效液相色谱法(HPLC)和HPLC-质谱法(HPLC-MS/MS)对ABCs和ABZ的浓度进行了评估:利用 Caco-2 单层细胞模型观察到,与 ABZ 相比,不同类型和浓度的 ABC 具有更好的渗透性,其中 ABC-C8 的渗透性最高。ABC的跨膜转运受到ASBT抑制剂的影响,这表明ASBT介导的主动转运机制。此外,引入胆酸会导致 ABZ 不再是 P-gp、MRP2 和 BCRP 的底物,从而有效逆转 ABZ 的外流。大鼠体内单向肠灌流结果显示,ABCs 改变了 ABZ 从空肠到回肠的吸收部位。ABCs在各肠段的吸收效率均高于ABZ,且跨膜转运效率随ASBT抑制剂浓度的增加而降低。这进一步证实了ABCs的转运同时存在被动扩散和ASBT介导的主动转运机制。ABCs 在胃液中的溶解度和在大鼠体内的药代动力学研究表明,ABZ-C4 的溶解度有所提高。此外,与 ABZ 相比,ABCs 能显著提高口服生物利用度,其中 ABC-C4 的生物利用度提高了约 31 倍:结论:ABCs 的跨膜转运机制涉及 ASBT 介导的主动转运和被动扩散的结合。此外,BA 的加入成功逆转了 ABZ 通过外排蛋白的外排。在合成的共轭物中,ABC-C4 在体外和体内均表现出优异的溶解性能。
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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