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多药耐药基因1和多药耐药相关蛋白亚型1至5 mRNA在人肠道中的表达定位。

Mapping of multidrug resistance gene 1 and multidrug resistance-associated protein isoform 1 to 5 mRNA expression along the human intestinal tract.

作者信息

Zimmermann Christian, Gutmann Heike, Hruz Petr, Gutzwiller Jean-Pierre, Beglinger Christoph, Drewe Juergen

机构信息

Clinic for Pharmacology & Toxicology, University Clinic Basel/Universitätsspital, Hebelstr. 2, CH-4031 Basel, Switzerland.

出版信息

Drug Metab Dispos. 2005 Feb;33(2):219-24. doi: 10.1124/dmd.104.001354. Epub 2004 Nov 2.

Abstract

Efflux transporters such as P-glycoprotein and multidrug resistance-associated proteins (MRPs) in the intestinal wall restrict intestinal drug transport. To overcome this limitation for enteral drug absorption, galenical targeting approaches have been proposed for site-specific luminal drug release in segments of the gut, where expression of the respective absorption-limiting transporter is minimal. Therefore, expression of multidrug resistance gene 1 (MDR1) and MRP1-5 was systematically investigated in 10 healthy subjects. Biopsies were taken from different segments of the gastrointestinal tract (from duodenum and terminal ileum, as well as ascending, transverse, descending, and sigmoid colon). Gene expression was investigated by quantitative real-time PCR (TaqMan). MRP3 appeared to be the most abundantly expressed transporter in investigated parts of the human intestine, except for the terminal ileum, where MDR1 showed the highest expression. The ranking of transporter gene expression in the duodenum was MRP3 >> MDR1 > MRP2 > MRP5 > MRP4 > MRP1. In the terminal ileum, the ranking order was as follows: MDR1 > MRP3 >> MRP1 approximately MRP5 approximately MRP4 > MRP2. In all segments of the colon (ascending, transverse, descending, and sigmoid colon), the transporter gene expression showed the following order: MRP3 >> MDR1 > MRP4 approximately MRP5 > MRP1 >> MRP2. We have shown, for the first time, systematic site-specific expression of MDR1 and MRP mRNA along the gastrointestinal tract in humans. All transporters showed alterations in their expression levels from the duodenum to sigmoid colon. The most pronounced changes were observed for MRP2, with high levels in the small intestine and hardly any expression in colonic segments. This knowledge may be useful to develop new targeting strategies for enteral drug delivery.

摘要

肠壁中的外排转运体,如P-糖蛋白和多药耐药相关蛋白(MRP),会限制肠道药物转运。为克服肠内药物吸收的这一限制,已提出草药靶向方法,以实现肠道特定节段的腔内药物特异性释放,因为在这些节段中,相应的吸收限制转运体表达极少。因此,对10名健康受试者的多药耐药基因1(MDR1)和MRP1-5的表达进行了系统研究。从胃肠道的不同节段(十二指肠、回肠末端以及升结肠、横结肠、降结肠和乙状结肠)采集活检组织。通过定量实时PCR(TaqMan)研究基因表达。除回肠末端MDR1表达最高外,MRP3似乎是在人类肠道研究部位中表达最丰富的转运体。十二指肠中转运体基因表达的排序为:MRP3 >> MDR1 > MRP2 > MRP5 > MRP4 > MRP1。在回肠末端,排序如下:MDR1 > MRP3 >> MRP1 ≈ MRP5 ≈ MRP4 > MRP2。在结肠的所有节段(升结肠、横结肠、降结肠和乙状结肠)中,转运体基因表达显示以下顺序:MRP3 >> MDR1 > MRP4 ≈ MRP5 > MRP1 >> MRP2。我们首次展示了人类胃肠道中MDR1和MRP mRNA的系统性位点特异性表达。所有转运体的表达水平从十二指肠到乙状结肠均有变化。MRP2的变化最为显著,在小肠中水平较高,而在结肠节段几乎没有表达。这一知识可能有助于开发新的肠内给药靶向策略。

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