人钠离子依赖性胆盐转运体（SLC10A1）的胆汁盐转运动力学特征。

Kinetic characterization of bile salt transport by human NTCP (SLC10A1).

机构信息

Solvo Biotechnology, 2 Gyár Str, Budaörs H-2040, Hungary.

GlaxoSmithKline R&D, Park Road, Ware, Hertforshire SG12 0DP, England, United Kingdom.

出版信息

Toxicol In Vitro. 2018 Feb;46:189-193. doi: 10.1016/j.tiv.2017.10.012. Epub 2017 Oct 9.

DOI:10.1016/j.tiv.2017.10.012

PMID:29024779

Abstract

The transport of bile acids facilitated by NTCP is an important factor in establishing bile flow. In this study, we examine the kinetics associated with human NTCP-dependent transport of two quantitatively important bile acids comprising the human bile acid pool, chenodeoxycholic acid and glycine-chenodeoxycholate, and secondary bile salt, 3-sulfo-glycolithocholate of potential toxicological significance. The study employed human NTCP overexpressing Chinese Hamster Ovary cells and results compared with taurocholate, a prototypical bile salt commonly used in transporter studies. GCDC and 3S-GLC but not CDCA were transported by NTCP. The efficient uptake of GCDC, TCA and 3S-GLC by NTCP enabled the determination of kinetics. GCDC displayed a lower K (0.569±0.318μM) than TCA (6.44±3.83μM) and 3S-GLC (3.78±1.17μM). The apparent CL value for GCDC was 20-fold greater (153±53μl/mg protein/min) than the apparent CL for TCA (6.92±4.72μl/mg protein/min) and apparent CL for 3S-GLC (8.05±1.33μl/mg protein/min). These kinetic results provide important complementary data on the substrate selectivity and specificity of NTCP to transport bile acids. NTCP transports GCDC with greater efficiency than TCA and has the same efficacy for 3S-GLC and TCA.

摘要

钠离子-牛磺胆酸共转运蛋白（NTCP）介导的胆酸转运是建立胆汁流动的一个重要因素。在这项研究中，我们研究了与人 NTCP 依赖性转运两种在数量上重要的胆汁酸有关的动力学，这两种胆汁酸组成了人类胆汁酸池，即鹅去氧胆酸和甘氨鹅去氧胆酸，以及具有潜在毒理学意义的次级胆盐 3-磺酸甘胆酸。该研究采用了过表达人 NTCP 的中国仓鼠卵巢细胞，并将结果与牛磺胆酸盐进行了比较，牛磺胆酸盐是转运体研究中常用的典型胆盐。GCDC 和 3S-GLC 但不是 CDCA 可被 NTCP 转运。GCDC、TCA 和 3S-GLC 被 NTCP 高效摄取，从而能够确定动力学。GCDC 的 K 值（0.569±0.318μM）低于 TCA（6.44±3.83μM）和 3S-GLC（3.78±1.17μM）。GCDC 的表观 CL 值比 TCA（6.92±4.72μl/mg 蛋白/min）和 3S-GLC（8.05±1.33μl/mg 蛋白/min）高 20 倍，为 153±53μl/mg 蛋白/min。这些动力学结果为 NTCP 转运胆酸的底物选择性和特异性提供了重要的补充数据。NTCP 转运 GCDC 的效率高于 TCA，对 3S-GLC 和 TCA 的功效相同。

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人钠离子依赖性胆盐转运体（SLC10A1）的胆汁盐转运动力学特征。

Kinetic characterization of bile salt transport by human NTCP (SLC10A1).

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