Nramp1蛋白及其在抗感染和巨噬细胞功能中的作用。

F Canonne-Hergaux, S Gruenheid, G Govoni, P Gros
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引用次数: 164

摘要

人类对传染病的易感性是受遗传控制的。动物模型为研究易感性的遗传成分和确定候选基因提供了理想的工具,然后可以对来自疾病流行地区的人群进行关联或连锁研究。通过定位克隆宿主抗性位点Bcg/Ity/Lsh分离到Nramp1基因,该位点的突变削弱了小鼠对细胞内寄生虫(如沙门氏菌、利什曼原虫和分枝杆菌)感染的抗性。最近发现人类Nramp1同源基因的等位变异与人类对结核病和麻风病的易感性有关。Nramp1蛋白是一种完整的膜蛋白,仅在单核细胞和巨噬细胞的溶酶体室中表达。吞噬后,Nramp1靶向含有微生物的吞噬体膜,在那里它可能修饰吞噬体内环境以影响微生物复制。尽管Nramp1在该位点的生化作用机制尚不清楚,但已经在许多其他动物物种中发现了Nramp同源物,并且实际上定义了一个从细菌到人类的保守蛋白家族。其中一些同源物已被证明是二价阳离子转运体。最近,哺乳动物Nramp家族的第二个成员Nramp2被发现,并在缺铁的动物模型中显示出突变。Nramp2蛋白随后被证明是肠中主要的不依赖于转铁蛋白的铁摄取系统。综上所述,这些结果表明Nramp1可能通过主动去除吞噬体空间中的铁或其他二价阳离子来控制细胞内微生物的复制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Nramp1 protein and its role in resistance to infection and macrophage function.

Susceptibility to infectious diseases is under genetic control in humans. Animal models provide an ideal tool to study the genetic component of susceptibility and to identify candidate genes that can then be tested for association or linkage studies in human populations from endemic areas of disease. The Nramp1 gene was isolated by positional cloning the host resistance locus Bcg/Ity/Lsh, and mutations at this locus impair the resistance of mice to infections with intracellular parasites, such as Salmonella, Leishmania, and Mycobacterium. Allelic variants at the human Nramp1 homologue have recently been found to be associated with susceptibility to tuberculosis and leprosy in humans. The Nramp1 protein is an integral membrane protein expressed exclusively in the lysosomal compartment of monocytes and macrophages. After phagocytosis, Nramp1 is targeted to the membrane of the microbe-containing phagosome, where it may modify the intraphagosomal milieu to affect microbial replication. Although the biochemical mechanism of action of Nramp1 at that site remains unknown, Nramp homologues have been identified in many other animal species and actually define a protein family conserved from bacteria to humans. Some of these homologues have been shown to be divalent cation transporters. Recently, a second member of the mammalian Nramp family, Nramp2, was discovered and shown to be mutated in animal models of iron deficiency. The Nramp2 protein was subsequently shown to be the major transferrin-independent iron uptake system of the intestine. Together, these results suggest that Nramp1 may control intracellular microbial replication by actively removing iron or other divalent cations from the phagosomal space.

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