刀豆蛋白A及其二价衍生物与淋巴细胞及重组淋巴细胞膜糖蛋白的相互作用。

F J Sharom, S Head, C C Kupsh, L Williams
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引用次数: 3

摘要

豆豆蛋白A (con A)及其二价衍生物琥珀酰豆豆蛋白A (S-con A)对猪淋巴结淋巴细胞都有丝分裂作用。我们比较了这两种凝集素与完整的猪淋巴细胞和含有重组淋巴细胞膜糖蛋白的磷脂囊泡的结合。结合数据Scatchard图的配体分析表明,con A和S-con A与完整细胞的结合均表现出高亲和力和低亲和力。尽管两种凝集素的糖特异性明显相同,但S-con A的高亲和力结合位点的数量仅为亲本凝集素高亲和力位点的三分之一。con A存在大量的低亲和力结合位点,而S-con A存在较少的低亲和力结合位点,这些位点可能是疏水结合的结果。Con A以积极的合作方式与淋巴细胞结合,而S-con A则表现出非合作行为。凝集素与含有重组淋巴细胞膜糖蛋白的大单层磷脂囊泡的结合使用快速过滤测定,并与囊泡的糖蛋白含量呈线性关系。几乎所有向外的糖蛋白在凝集素结合方面都具有功能。重组的糖蛋白仅显示出con a和S-con a的一类高亲和力结合位点,其关联常数与完整细胞相似。Con A,而S-con A与重构囊泡表现出正向的协同结合。在凝胶相和液晶相脂质中均观察到协同性,因此不依赖于糖蛋白受体的远距离横向重排。结果表明,con A诱导淋巴细胞膜表面受体的微重新分配,导致先前凝集素无法接触的糖蛋白暴露。S-Con A不引起糖蛋白再分布,大部分受体仍然是隐性的。
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Interaction of concanavalin A and a divalent derivative with lymphocytes and reconstituted lymphocyte membrane glycoproteins.

Both concanavalin A (con A) and its divalent derivative, succinyl-concanavalin A (S-con A) are mitogenic for porcine lymph node lymphocytes. We have compared the binding of these two lectins to intact porcine lymphocytes and phospholipid vesicles containing reconstituted lymphocyte membrane glycoproteins. Both con A and S-con A showed high- and low-affinity binding to intact cells, as indicated by LIGAND analysis of Scatchard plots of binding data. Despite the apparently identical saccharide specificities of the two lectins, high-affinity binding sites for S-con A were only one-third as numerous as high-affinity sites for the parent lectin. Large numbers of low-affinity binding sites existed for con A, while many fewer were present for S-con A. It is suggested that these sites result from hydrophobic association. Con A bound to lymphocytes in a positively cooperative fashion, while S-con A showed noncooperative behavior. Lectin binding to large unilamellar phospholipid vesicles containing reconstituted lymphocyte membrane glycoproteins was measured using a rapid filtration assay, and was linear with the glycoprotein content of the vesicles. Almost all of the outward-facing glycoprotein was functional in terms of lectin binding. Reconstituted glycoproteins showed only a single class of high-affinity binding sites for both con A and S-con A, with association constants similar to those measured for intact cells. Con A, but not S-con A, showed positively cooperative binding to reconstituted vesicles. Cooperativity was observed in both gel phase and liquid crystalline phase lipid, and was thus not dependent on long-range lateral rearrangement of glycoprotein receptors. Results suggested that con A induces a microredistribution of receptors on the lymphocyte membrane surface, leading to the exposure of glycoproteins that were previously inaccessible to the lectin. S-Con A does not cause glycoprotein redistribution, and a large fraction of the receptors remain cryptic.

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