Trinder D, Oates P S, Thomas C, Sadleir J, Morgan E H
Department of Physiology, The University of Western Australia, Nedlands, Western Australia, Australia.
Gut. 2000 Feb;46(2):270-6. doi: 10.1136/gut.46.2.270.
The mechanism of iron absorption by the intestine and its transfer to the main iron storage site, the liver, is poorly understood. Recently an iron carrier was cloned and named DMT1 (divalent metal transporter 1).
To determine the level of DMT1 gene expression and protein distribution in duodenum and liver.
A DMT1 cRNA and antibody were produced and used in in situ hybridisation and immunohistochemistry, respectively, in rats in which the iron stores were altered by feeding diets with normal, low, and high iron content.
Duodenal DMT1 mRNA was low in crypts and increased at the crypt-villus junction in iron deficient and control rats; it fell in the iron loaded state. Staining for DMT1 protein was not detected in crypts. In villus enterocytes, protein staining was localised to the microvillus membrane in iron deficiency, in the cytoplasm and to a lesser extent in the membrane in controls, and entirely in the cytoplasm of iron loaded animals. Liver DMT1 mRNA was distributed evenly across hepatocytes. DMT1 protein staining was observed on hepatocyte plasma membranes, with highest values in the iron loaded state, lower values in control animals, and none after iron depletion.
Results are consistent with a role for DMT1 in the transmembrane transport of non-transferrin bound iron from the intestinal lumen and from the portal blood.
肠道对铁的吸收机制以及铁向主要铁储存部位肝脏的转运机制尚不清楚。最近克隆了一种铁载体并将其命名为二价金属转运体1(DMT1)。
确定十二指肠和肝脏中DMT1基因表达水平及蛋白质分布情况。
制备了DMT1互补RNA(cRNA)和抗体,分别用于缺铁、正常铁及高铁饮食喂养的大鼠的原位杂交和免疫组织化学检测,这些大鼠的铁储备因饮食中铁含量不同而改变。
在缺铁大鼠和正常对照大鼠中,十二指肠隐窝处的DMT1信使核糖核酸(mRNA)水平较低,在隐窝 - 绒毛交界处升高;在铁过载状态下其水平下降。在隐窝中未检测到DMT1蛋白染色。在绒毛肠上皮细胞中,缺铁时蛋白染色定位于微绒毛膜,正常对照时位于细胞质且在膜上有较少染色,铁过载动物中则完全位于细胞质。肝脏DMT1 mRNA在肝细胞中均匀分布。在肝细胞膜上观察到DMT1蛋白染色,铁过载状态下染色最强,正常对照动物中较弱,缺铁后则无染色。
结果表明DMT1在非转铁蛋白结合铁从肠腔和门静脉血的跨膜转运中发挥作用。