May J M
Diabetes Research and Training Center, Vanderbilt University School of Medicine, Nashville, TN 37232.
Biochem J. 1988 Sep 1;254(2):329-36. doi: 10.1042/bj2540329.
Maltose-maleimide was synthesized as a potential affinity label for the facilitative hexose carrier with selectivity for exofacial sulphydryl groups. This reagent, although probably a mixture of isomers, did not significantly penetrate the plasma membrane of human erythrocytes at concentrations below 5 mM at 37 degrees C. When allowed to react to completion, it irreversibly inhibited the uptake of 3-O-methylglucose, with a half-maximal response at about 1.5-2.0 mM-reagent. The rate of transport inactivation was a saturable function of the maltose-maleimide concentration. Studies of reaction kinetics and effects of known transport inhibitors demonstrated that irreversible reaction occurred on the exofacial outward-facing carrier, although not at a site involved in substrate binding. Reaction of intact erythrocytes with [14C]maltose-maleimide resulted in labelling of a broad band 4.5 protein of Mr (average) 45,000-66,000 in electrophoretic gels. This protein was very likely the hexose carrier, since its labelling was inhibited by cytochalasin B. Exofacial band 4.5 labelling was stoichiometric with respect to transport inhibition, yielding an estimated 300,000 carriers/cell. These results suggest that the exofacial sulphydryl which reacts with maltose-maleimide is distinct from the substrate binding site on the hexose carrier, but that it confers substantial labelling selectivity to impermeant maleimides. Additionally, the high efficiency of carrier labelling obtained with maltose-maleimide is useful in quantifying numbers of carriers in whole cells.
麦芽糖-马来酰亚胺被合成为一种潜在的亲和标记物,用于促进性己糖载体,对细胞外表面的巯基具有选择性。该试剂虽然可能是异构体的混合物,但在37℃下浓度低于5 mM时,不会显著穿透人红细胞的质膜。当反应完全时,它不可逆地抑制3-O-甲基葡萄糖的摄取,在约1.5-2.0 mM试剂时出现半数最大反应。转运失活速率是麦芽糖-马来酰亚胺浓度的饱和函数。反应动力学研究和已知转运抑制剂的作用表明,不可逆反应发生在细胞外表面向外的载体上,尽管不是在底物结合位点。完整红细胞与[14C]麦芽糖-马来酰亚胺反应导致电泳凝胶中Mr(平均)为45,000-66,000的宽带4.5蛋白被标记。该蛋白很可能是己糖载体,因为其标记被细胞松弛素B抑制。细胞外表面带4.5标记与转运抑制呈化学计量关系,估计每个细胞有300,000个载体。这些结果表明,与麦芽糖-马来酰亚胺反应的细胞外表面巯基与己糖载体上的底物结合位点不同,但它赋予非渗透性马来酰亚胺显著的标记选择性。此外,麦芽糖-马来酰亚胺获得的高效载体标记可用于定量全细胞中的载体数量。