Bridges K R, Smith B R
J Clin Invest. 1985 Sep;76(3):913-8. doi: 10.1172/JCI112089.
Expression of the transferrin receptor on target cell lines has recently been implicated as a determinant of susceptibility to cytolysis by natural killer (NK) lymphocytes. We have examined this proposed relationship in several ways. First, K562 (a cell line highly vulnerable to NK lysis) cells were grown for 24 h in the iron chelator desferrioxamine. Under these conditions, the cells doubled their surface transferrin receptor expression as determined both by radioligand binding and surface binding of the OK-T9 monoclonal anti-transferrin receptor antibody. In contrast, cells grown for the same period of time in hemin halved their receptor expression. This fourfold change in transferrin receptor expression between the desferrioxamine-treated and hemin-treated cells produced no change in susceptibility to NK cytolysis. Second, HeLa (a cell line which in its native state is very resistant to NK cytolysis) cells were compared with K562 cells with respect to surface transferrin receptor expression. The difference in NK susceptibility of the two cell lines was not reflected in differences in transferrin receptor expression: the K562 cells expressed approximately 1.5 X 10(5) receptors per cell while HeLa cells expressed 2.0 X 10(5) receptors/cell. Third, infection of HeLa cells by measles virus greatly increased their susceptibility to NK lysis but produced no change in surface transferrin receptor expression. Furthermore, when measles-infected HeLa cells were grown for 6 d in medium supplemented with iron-saturated human transferrin they underwent a 50% reduction in receptor expression but no change in NK susceptibility. Finally, possible alterations in the surface expression of NK target antigens on modified cells were further assayed by their ability to serve as cold-target inhibitors of cytolysis of NK-sensitive target cells. We examined two groups of cells in which transferrin receptor expression was reduced. These were the transferrin-treated, measles-infected HeLa cells with the 50% receptor reduction, and K562 cells grown in medium containing hemin and iron salts where the reduction was five- to sixfold relative to control. In neither case was there a change in the apparent expression of NK target antigen(s). We conclude that there is a discordance between transferrin receptor expression and susceptibility to NK cytolysis in the model systems examined. Therefore, it is unlikely that the transferrin receptor per se is the target recognition structure for human NK cells, although a role in concert with other, as yet undefined molecules, cannot be excluded.
转铁蛋白受体在靶细胞系上的表达最近被认为是自然杀伤(NK)淋巴细胞对细胞溶解敏感性的一个决定因素。我们已通过多种方式研究了这种推测的关系。首先,将K562细胞(一种对NK溶解高度敏感的细胞系)在铁螯合剂去铁胺中培养24小时。在这些条件下,通过放射性配体结合以及OK-T9抗转铁蛋白受体单克隆抗体的表面结合测定,细胞表面转铁蛋白受体的表达增加了一倍。相反,在氯化血红素中培养相同时间的细胞,其受体表达减半。去铁胺处理的细胞和氯化血红素处理的细胞之间转铁蛋白受体表达的这四倍变化,并未导致对NK细胞溶解的敏感性发生改变。其次,比较了HeLa细胞(一种天然状态下对NK细胞溶解非常耐受的细胞系)和K562细胞表面转铁蛋白受体的表达。两种细胞系对NK敏感性的差异并未体现在转铁蛋白受体表达的差异上:K562细胞每个细胞表达约1.5×10⁵个受体,而HeLa细胞每个细胞表达2.0×10⁵个受体。第三,麻疹病毒感染HeLa细胞极大地增加了它们对NK溶解的敏感性,但表面转铁蛋白受体表达没有变化。此外,当麻疹感染的HeLa细胞在补充有铁饱和人转铁蛋白的培养基中培养6天时,它们的受体表达降低了50%,但对NK的敏感性没有变化。最后,通过它们作为NK敏感靶细胞溶解的冷靶抑制剂的能力,进一步检测了修饰细胞上NK靶抗原表面表达的可能改变。我们检查了两组转铁蛋白受体表达降低的细胞。一组是经转铁蛋白处理、麻疹感染且受体减少50%的HeLa细胞,另一组是在含有氯化血红素和铁盐的培养基中培养的K562细胞,其受体表达相对于对照降低了五到六倍。在这两种情况下,NK靶抗原的表观表达均未发生变化。我们得出结论,在所研究的模型系统中,转铁蛋白受体表达与对NK细胞溶解的敏感性之间存在不一致。因此,转铁蛋白受体本身不太可能是人类NK细胞的靶识别结构,尽管与其他尚未明确的分子协同发挥作用的可能性不能排除。
