Böttinger H, Béress L, Habermann E
Biochim Biophys Acta. 1986 Sep 25;861(1):165-76. doi: 10.1016/0005-2736(86)90576-6.
Palytoxin (about 1 pM) increases the permeability of human erythrocytes. We now report its radiolabeling with 125I, followed by affinity purification on porcine kidney membranes. The resulting ligand binds fast and reversibly to intact erythrocytes. The Kd from velocity and equilibrium measurements is 2 X 10(-11) M, and the number of binding sites about 200 per cell. Binding is promoted by divalent cations (Ca2+ greater than Sr2+ greater than Ba2+) and by borate. It is inhibited by K+ (IC50 2 mM), ouabain (IC50 3 X 10(-9) M) and ouabagenin (IC50 6 X 10(-6) M). Conversely, [3H]ouabain is displaced by the substances and concentrations mentioned, and also by palytoxin (Ki 3 X 10(-11) M). Dog erythrocytes, which are known to possess a very low (Na+ + K+)-ATPase activity, are resistant to and lack specific binding sites for palytoxin. Binding of 125I-palytoxin, like that of [3H]ouabain, depends on the state of (Na+ + K+)-ATPase. ATP depletion decreases binding of both ligands to erythrocytes. Binding of 125I-palytoxin and [3H]ouabain to red cell stroma is partially restored by ATP. In contrast to [3H]ouabain, binding of 125I-palytoxin to red cell stroma is not promoted by Mg2+ and Pi. The data show that (a) all known promoters and inhibitors of palytoxin action on human red cells do so by enhancing or decreasing its binding, (b) (Na+ + K+)-ATPase serves as a receptor for palytoxin, and (c) the antagonism by ouabain is competitive at the receptor level. They support our previous hypothesis that palytoxin increases human erythrocyte permeability by formation of pores through (Na+ + K+)-ATPase or its close vicinity.
刺尾鱼毒素(约1皮摩尔)可增加人红细胞的通透性。我们现在报告其用125I进行放射性标记,随后在猪肾膜上进行亲和纯化。所得配体与完整红细胞快速且可逆地结合。通过速度和平衡测量得出的解离常数(Kd)为2×10(-11)M,每个细胞的结合位点数约为200个。二价阳离子(Ca2+>Sr2+>Ba2+)和硼酸盐可促进结合。它受到K+(半数抑制浓度为2毫摩尔)、哇巴因(半数抑制浓度为3×10(-9)M)和哇巴因苷元(半数抑制浓度为6×10(-6)M)的抑制。相反,[3H]哇巴因会被上述物质及其浓度以及刺尾鱼毒素(抑制常数为3×10(-11)M)所取代。已知具有极低(Na+ + K+)-ATP酶活性的犬红细胞对刺尾鱼毒素具有抗性且缺乏其特异性结合位点。125I-刺尾鱼毒素的结合,与[3H]哇巴因一样,取决于(Na+ + K+)-ATP酶的状态。ATP耗竭会降低两种配体与红细胞的结合。ATP可部分恢复125I-刺尾鱼毒素和[3H]哇巴因与红细胞基质的结合。与[3H]哇巴因不同,Mg2+和磷酸根不会促进125I-刺尾鱼毒素与红细胞基质的结合。数据表明:(a)所有已知的刺尾鱼毒素对人红细胞作用的促进剂和抑制剂都是通过增强或降低其结合来实现的;(b)(Na+ + K+)-ATP酶作为刺尾鱼毒素的受体;(c)哇巴因在受体水平的拮抗作用具有竞争性。这些数据支持了我们之前的假设,即刺尾鱼毒素通过(Na+ + K+)-ATP酶或其附近区域形成孔道来增加人红细胞的通透性。
