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水通道蛋白9是小鼠红细胞摄取甘油的主要途径,这对疟疾毒力有影响。

Aquaporin 9 is the major pathway for glycerol uptake by mouse erythrocytes, with implications for malarial virulence.

作者信息

Liu Yangjian, Promeneur Dominique, Rojek Aleksandra, Kumar Nirbhay, Frøkiaer Jørgen, Nielsen Søren, King Landon S, Agre Peter, Carbrey Jennifer M

机构信息

Department of Cell Biology, Duke University Medical Center, Durham, NC 27710, USA.

出版信息

Proc Natl Acad Sci U S A. 2007 Jul 24;104(30):12560-4. doi: 10.1073/pnas.0705313104. Epub 2007 Jul 16.

DOI:10.1073/pnas.0705313104
PMID:17636116
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1941508/
Abstract

Human and rodent erythrocytes are known to be highly permeable to glycerol. Aquaglyceroporin aquaporin (AQP)3 is the major glycerol channel in human and rat erythrocytes. However, AQP3 expression has not been observed in mouse erythrocytes. Here we report the presence of an aquaglyceroporin, AQP9, in mouse erythrocytes. AQP9 levels rise as reticulocytes mature into erythrocytes and as neonatal pups develop into adult mice. Mice bearing targeted disruption of both alleles encoding AQP9 have erythrocytes that appear morphologically normal. Compared with WT cells, erythrocytes from AQP9-null mice are defective in rapid glycerol transport across the cell membrane when measured by osmotic lysis, [(14)C]glycerol uptake, or stopped-flow light scattering. In contrast, the water and urea permeabilities are intact. Although the physiological role of glycerol in the normal function of erythrocytes is not clear, plasma glycerol is an important substrate for lipid biosynthesis of intraerythrocytic malarial parasites. AQP9-null mice at the age of 4 months infected with Plasmodium berghei survive longer during the initial phase of infection compared with WT mice. We conclude that AQP9 is the major glycerol channel in mouse erythrocytes and suggest that this transport pathway may contribute to the virulence of intraerythrocytic stages of malarial infection.

摘要

已知人和啮齿动物的红细胞对甘油具有高度通透性。水甘油通道蛋白水通道蛋白(AQP)3是人和大鼠红细胞中的主要甘油通道。然而,在小鼠红细胞中未观察到AQP3的表达。在此我们报告小鼠红细胞中存在一种水甘油通道蛋白AQP9。随着网织红细胞成熟为红细胞以及新生幼鼠发育为成年小鼠,AQP9水平升高。携带编码AQP9的两个等位基因靶向破坏的小鼠的红细胞在形态上看起来正常。与野生型细胞相比,通过渗透裂解、[¹⁴C]甘油摄取或停流光散射测量时,来自AQP9基因敲除小鼠的红细胞在跨细胞膜的快速甘油转运方面存在缺陷。相比之下,水和尿素的通透性是完整的。尽管甘油在红细胞正常功能中的生理作用尚不清楚,但血浆甘油是红细胞内疟原虫脂质生物合成的重要底物。与野生型小鼠相比,感染伯氏疟原虫的4个月龄AQP9基因敲除小鼠在感染初始阶段存活时间更长。我们得出结论,AQP9是小鼠红细胞中的主要甘油通道,并表明该转运途径可能有助于疟原虫红细胞内阶段的毒力。

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