Huebers H, Uvelli D, Celada A, Josephson B, Finch C
J Clin Invest. 1982 Oct;70(4):769-79. doi: 10.1172/jci110673.
Rabbit transferrin in vitro is shown to load ferrous iron at random on its specific binding sites. The release of iron to reticulocytes is shown to be an all-or-none phenomenon. The two monoferric transferrins have similar in vivo plasma iron clearance rates and tissue distribution. Diferric transferrin, while giving a similar tissue distribution of radioiron, has a plasma iron clearance rate approximately twice that of the monoferric transferrins at low plasma iron concentrations. This difference diminishes as the plasma iron concentration increases. These results are consistent with a progressively greater in vivo conversion of mono- to diferric transferrin as transferrin saturation increases. The in vivo plasma iron turnover in the rabbit increases progressively as the plasma iron increases, from a mean value of approximately 0.8 mg/dl whole blood per d at a plasma iron concentration of 50 mug/dl to 2.0 at a plasma iron concentration of 300. The molecular behavior of transferrin and its iron over this range was investigated using (125)I-transferrin, [(55)Fe]monoferric transferrin, and [(59)Fe]diferric transferrin. The equilibrium distribution of transferrin between its apo-, mono-, and diferric moieties was similar to that predicted on the basis of the percent saturation and random distribution. Rate constants of iron loading and unloading calculated from the percent saturation and from the clearance rates of [(55)Fe]monoferric and [(59)Fe]diferric transferrin were similar to those derived from changes in injected (125)I-apotransferrin. On the basis of these data, it is concluded that the plasma transferrin pool is nonhomogeneous and that the relative size of the mono- and diferric cycles depends on transferrin saturation. A formula is proposed for correcting the plasma iron turnover, thereby eliminating the effect of plasma iron concentration, so as to reflect directly the number of tissue transferrin receptors.
体外实验表明,兔转铁蛋白可将亚铁随机加载到其特定结合位点上。铁向网织红细胞的释放是一种全或无的现象。两种单铁转铁蛋白在体内具有相似的血浆铁清除率和组织分布。双铁转铁蛋白虽然在组织中的放射性铁分布相似,但在低血浆铁浓度下,其血浆铁清除率约为单铁转铁蛋白的两倍。随着血浆铁浓度的增加,这种差异会减小。这些结果与随着转铁蛋白饱和度增加,单铁转铁蛋白在体内逐渐更多地转化为双铁转铁蛋白的现象一致。兔体内血浆铁周转率随着血浆铁的增加而逐渐升高,血浆铁浓度为50μg/dl时,全血中血浆铁周转率的平均值约为每天0.8mg/dl,血浆铁浓度为300μg/dl时则为2.0mg/dl。使用(125)I -转铁蛋白、[(55)Fe]单铁转铁蛋白和[(59)Fe]双铁转铁蛋白研究了该范围内转铁蛋白及其铁的分子行为。转铁蛋白在其脱铁、单铁和双铁部分之间的平衡分布与基于饱和度百分比和随机分布预测的结果相似。根据饱和度百分比以及[(55)Fe]单铁转铁蛋白和[(59)Fe]双铁转铁蛋白的清除率计算得出的铁加载和卸载速率常数,与从注射的(125)I -脱铁转铁蛋白变化得出的速率常数相似。基于这些数据,可以得出结论:血浆转铁蛋白池是非均质的,单铁和双铁循环的相对大小取决于转铁蛋白饱和度。提出了一个校正血浆铁周转率的公式,从而消除血浆铁浓度的影响,以便直接反映组织转铁蛋白受体的数量。