有机阳离子转运体 3（SLC22A3）及其错义变异体在二甲双胍药理作用中的作用。

Role of organic cation transporter 3 (SLC22A3) and its missense variants in the pharmacologic action of metformin.

机构信息

Department of Bioengineering and Therapeutic Sciences, University of California at San Francisco, San Francisco, California 94158, USA.

出版信息

Pharmacogenet Genomics. 2010 Nov;20(11):687-99. doi: 10.1097/FPC.0b013e32833fe789.

DOI:10.1097/FPC.0b013e32833fe789

PMID:20859243

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2976715/

Abstract

OBJECTIVES

The goals of this study were to determine the role of organic cation transporter 3 (OCT3) in the pharmacological action of metformin and to identify and functionally characterize genetic variants of OCT3 with respect to the uptake of metformin and monoamines.

METHODS

For pharmacological studies, we evaluated metformin-induced activation of AMP-activated protein kinase, a molecular target of metformin. We used quantitative PCR and immunostaining to localize the transporter and isotopic uptake studies in cells transfected with OCT3 and its nonsynonymous genetic variants for functional analyses.

RESULTS

Quantitative PCR and immunostaining showed that OCT3 was expressed high on the plasma membrane of skeletal muscle and liver, target tissues for metformin action. Both the OCT inhibitor, cimetidine, and OCT3-specific short hairpin RNA significantly reduced the activating effect of metformin on AMP-activated protein kinase. To identify genetic variants in OCT3, we used recent data from the 1000 Genomes and the Pharmacogenomics of Membrane Transporters projects. Six novel missense variants were identified. In functional assays, using various monoamines and metformin, three variants, T44M (c.131C>T), T400I (c.1199C>T) and V423F (c.1267G>T) showed altered substrate specificity. Notably, in cells expressing T400I and V423F, the uptakes of metformin and catecholamines were significantly reduced, but the uptakes of metformin, 1-methyl-4-phenylpyridinium and histamine by T44M were significantly increased more than 50%. Structural modeling suggested that these two variants may be located in the pore lining (T400) or proximal (V423) membrane-spanning helixes.

CONCLUSION

Our study suggests that OCT3 plays a role in the therapeutic action of metformin and that genetic variants of OCT3 may modulate metformin and catecholamine action.

摘要

目的

本研究旨在探讨有机阳离子转运体 3（OCT3）在二甲双胍药理学作用中的作用，并鉴定和功能表征 OCT3 的遗传变异体与二甲双胍和单胺摄取的关系。

方法

在药理学研究中，我们评估了二甲双胍诱导的 AMP 激活蛋白激酶（AMPK）的激活，这是二甲双胍的一个分子靶点。我们使用定量 PCR 和免疫染色来定位转运体，并在转染 OCT3 及其非同义遗传变异体的细胞中进行同位素摄取研究以进行功能分析。

结果

定量 PCR 和免疫染色显示，OCT3 在骨骼肌和肝脏的质膜上表达较高，这是二甲双胍作用的靶组织。OCT 抑制剂西咪替丁和 OCT3 特异性短发夹 RNA 均显著降低了二甲双胍对 AMPK 的激活作用。为了鉴定 OCT3 中的遗传变异体，我们使用了最近来自 1000 基因组和膜转运体药物基因组学项目的数据。鉴定出 6 种新的错义变异体。在功能测定中，使用各种单胺和二甲双胍，三种变异体 T44M（c.131C>T）、T400I（c.1199C>T）和 V423F（c.1267G>T）显示出改变的底物特异性。值得注意的是，在表达 T400I 和 V423F 的细胞中，二甲双胍和儿茶酚胺的摄取明显减少，但 T44M 的摄取增加了 50%以上，包括二甲双胍、1-甲基-4-苯基吡啶（MPP+）和组氨酸。结构建模表明，这两种变异体可能位于孔衬（T400）或近膜（V423）跨膜螺旋内。

结论

我们的研究表明，OCT3 在外周组织中参与二甲双胍的治疗作用，而 OCT3 的遗传变异体可能调节二甲双胍和儿茶酚胺的作用。

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