两种人 MATE 转运蛋白的功能特征：西咪替丁转运的动力学和各种化合物抑制的特性。

Functional characteristics of two human MATE transporters: kinetics of cimetidine transport and profiles of inhibition by various compounds.

机构信息

Graduate School of Pharmaceutical Sciences, Nagoya City University, Nagoya 467-8603, Japan.

出版信息

J Pharm Pharm Sci. 2009;12(3):388-96. doi: 10.18433/j3r59x.

DOI:10.18433/j3r59x

PMID:20067714

Abstract

PURPOSE

Human multidrug and toxin extrusion protein 1 (hMATE1) and hMATE2-K are organic cation/H+ antiporters that have recently been identified and suggested to be involved in the renal brush border secretion of various organic cations. Information about functional characteristics of them has been accumulating, but still insufficient to fully understand their functions and respective roles. The present study was conducted to help clarify them.

METHODS

The cDNA of hMATE1 was isolated from human brain cDNA by RT-PCR and hMATE2-K cDNA was from human kidney cDNA. HEK293 cells were stably transfected with hMATE1 and hMATE2-K, and the cellular uptakes of [3H]cimetidine and [14C]tetraethylammonium (TEA) were evaluated.

RESULTS

It was first found that both hMATE1 and hMATE2-K can transport cimetidine with high affinities, indicated by small Michaelis constants of 8.00 mM and 18.18 mM, respectively. These were much smaller than those for TEA (366 mM and 375 mM, respectively, for hMATE1 and hMATE2-K). Subsequent investigation using cimetidine as a probe substrate into the profiles of inhibition of the two hMATEs by various compounds indicated that they are similar in principle but different to some extent in substrate recognition, reflecting the modest differences in amino acid sequences between them. In fact, cimetidine transport by hMATE1 was correlated to that by hMATE2-K, which is 65% similar to hMATE1, but not as good as to that by rat MATE1, which is 86% similar.

CONCLUSIONS

Cimetidine was demonstrated to be a high affinity substrate of both hMATEs. Subsequent evaluation of the inhibition of hMATEs by various compounds indicated no major difference in function or role between hMATE1 and hMATE2-K.

摘要

目的

人多药和毒素外排蛋白 1（hMATE1）和 hMATE2-K 是有机阳离子/H+反向转运蛋白，最近已被鉴定并被认为参与各种有机阳离子的肾脏刷状缘分泌。关于它们的功能特征的信息一直在积累，但仍然不足以完全理解它们的功能和各自的作用。本研究旨在帮助阐明这些问题。

方法

通过 RT-PCR 从人脑 cDNA 中分离 hMATE1 cDNA，从人肾 cDNA 中分离 hMATE2-K cDNA。用 hMATE1 和 hMATE2-K 稳定转染 HEK293 细胞，并评估[3H]西咪替丁和[14C]四乙基铵（TEA）的细胞摄取。

结果

首先发现 hMATE1 和 hMATE2-K 均可高亲和力转运西咪替丁，其米氏常数分别为 8.00 mM 和 18.18 mM，均远小于 TEA（分别为 366 mM 和 375 mM，对于 hMATE1 和 hMATE2-K）。随后使用西咪替丁作为探针底物，研究两种 hMATE 受各种化合物抑制的情况表明，它们在原理上相似，但在底物识别上存在一定差异，反映出它们之间氨基酸序列的细微差异。事实上，hMATE1 转运西咪替丁与 hMATE2-K 转运西咪替丁相关，hMATE2-K 与 hMATE1 相似性为 65%，但与 hMATE1 相似性为 86%的大鼠 MATE1 相比，相关性较差。

结论

西咪替丁被证明是 hMATE 两者的高亲和力底物。随后评估各种化合物对 hMATE 抑制的情况表明，hMATE1 和 hMATE2-K 的功能或作用没有重大差异。

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两种人 MATE 转运蛋白的功能特征：西咪替丁转运的动力学和各种化合物抑制的特性。

Functional characteristics of two human MATE transporters: kinetics of cimetidine transport and profiles of inhibition by various compounds.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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