Johnson G, Jacobs P, Purves L R
J Clin Invest. 1983 May;71(5):1467-76. doi: 10.1172/jci110900.
The distribution and quantitation of the iron-binding proteins of rat small intestinal mucosa was studied, in iron-deficient and replete animals, to explore their role in the absorption of iron. Adsorption (mucosal uptake) of iron in in situ ligated loops of small intestinal mucosa was found to be uniform throughout the length of the small intestine whereas absorption (carcass uptake) showed a steep decreasing gradient from the duodenum to the ileum. The disrupted, in vivo labeled mucosal cells were fractionated by isopycnic centrifugation and transferrin and ferritin were quantitated by radioimmunoassay. Transferrin derived from mucosal cells was shown to have a higher affinity for the antibody than transferrin in serum. Of the transferrin present in the mucosal extract, only a portion could be accounted for by contamination from the serum; the proteolysis resistant and intrinsic transferrin may be mucosal cell specific. Transferrin was found in similar amounts in all regions of the small intestine, was not affected by iron loading but doubled in response to iron deficiency. Mucosal ferritin was found in greater amounts in the iron-absorbing areas of the intestine, increased in the duodenum of iron-loaded animals, and decreased in iron-deficient animals. The incorporation of newly absorbed radioiron into ferritin was only found in iron absorbing regions and was completely inhibited by colchicine and cytochalasin-B, suggesting that ferritin was loaded with iron at the point of iron absorption and that the process is associated with vesicle movement and not simple diffusion. Transferrin and ferritin-specific immunoabsorption and also gel filtration established that no other soluble iron binding proteins were involved in absorption.
研究了缺铁和铁充足大鼠小肠黏膜中铁结合蛋白的分布和定量,以探讨它们在铁吸收中的作用。发现小肠黏膜原位结扎环中铁的吸附(黏膜摄取)在小肠全长中是均匀的,而吸收(躯体摄取)则显示出从十二指肠到回肠急剧下降的梯度。通过等密度离心对体内标记的破碎黏膜细胞进行分级分离,并通过放射免疫测定法定量转铁蛋白和铁蛋白。结果显示,黏膜细胞来源的转铁蛋白比血清中的转铁蛋白对抗体具有更高的亲和力。在黏膜提取物中的转铁蛋白中,只有一部分可归因于血清污染;抗蛋白水解且内在的转铁蛋白可能是黏膜细胞特异性的。在小肠的所有区域中发现转铁蛋白的含量相似,不受铁负荷的影响,但在缺铁时会增加一倍。在小肠的铁吸收区域发现黏膜铁蛋白含量更高,在铁负荷动物的十二指肠中增加,而在缺铁动物中减少。仅在铁吸收区域发现新吸收的放射性铁掺入铁蛋白,并且秋水仙碱和细胞松弛素B可完全抑制这种掺入,这表明铁蛋白在铁吸收点处被铁负载,并且该过程与囊泡运动相关,而非简单扩散。转铁蛋白和铁蛋白特异性免疫吸附以及凝胶过滤表明,没有其他可溶性铁结合蛋白参与吸收。