Golub M S, Han B, Keen C L
Department of Internal Medicine, University of California, Davis 95616, USA.
Brain Res. 1996 May 6;719(1-2):72-7. doi: 10.1016/0006-8993(96)00087-x.
Transferrin (Tf) is a major transport protein for both iron (Fe) and aluminum (Al), as well as manganese (Mn) and it can mediate cellular uptake of these elements via cell surface Tf receptors. To study the effect of Al-Tf on Tf receptor regulation, primary oligodendrocyte cultures were prepared from cortices of newborn rats. The effects of Al-Tf on 54Mn and 59Fe uptake were compared to those of apo-, Fe-, or Mn-Tf (1.25 microM). To examine changes in cell surface Tf binding capacity, preincubation (4 h, 37 degrees C) was performed with apo-, Al- or Fe-Tf and homologous receptor binding studies were subsequently conducted with 125I-Fe-Tf at 4 degrees C. Incubation with Al-Tf, but not with equimolar amounts of Al chloride or Al citrate, led to dose-related increases in cellular Al. Incubation with either Al- or Fe-Tf decreased 59Fe uptake, while incubation with either Al- or Mn-Tf decreased 54Mn uptake. Surface Tf receptor sites/cell were 1.05, 0.60 and 0.46 x 10(5) after incubations with equivalent amounts of apo-, Fe-, and Al-Tf respectively. The data suggest that Al-Tf down-regulates surface Tf receptors on oligodendrocytes and can limit Fe and Mn uptake through this mechanism.
转铁蛋白(Tf)是铁(Fe)、铝(Al)以及锰(Mn)的主要转运蛋白,它可以通过细胞表面的转铁蛋白受体介导这些元素的细胞摄取。为了研究铝-转铁蛋白(Al-Tf)对转铁蛋白受体调节的影响,从新生大鼠的皮质制备了原代少突胶质细胞培养物。将Al-Tf对54Mn和59Fe摄取的影响与脱铁转铁蛋白(apo-Tf)、铁-转铁蛋白(Fe-Tf)或锰-转铁蛋白(Mn-Tf,1.25微摩尔)的影响进行了比较。为了检测细胞表面转铁蛋白结合能力的变化,用脱铁转铁蛋白、铝-转铁蛋白或铁-转铁蛋白进行预孵育(4小时,37摄氏度),随后在4摄氏度下用125I-Fe-Tf进行同源受体结合研究。用Al-Tf孵育,但用等摩尔量的氯化铝或柠檬酸铝孵育则不会,导致细胞内铝含量呈剂量相关增加。用铝-转铁蛋白或铁-转铁蛋白孵育会降低59Fe摄取,而用铝-转铁蛋白或锰-转铁蛋白孵育会降低54Mn摄取。分别用等量的脱铁转铁蛋白、铁-转铁蛋白和铝-转铁蛋白孵育后,细胞表面转铁蛋白受体位点/细胞分别为1.05、0.60和0.46×10(5)。数据表明,Al-Tf下调少突胶质细胞表面的转铁蛋白受体,并可通过该机制限制铁和锰的摄取。
