Buchanan B B, Eiermann W, Riccio P, Aquila H, Klingenberg M
Proc Natl Acad Sci U S A. 1976 Jul;73(7):2280-4. doi: 10.1073/pnas.73.7.2280.
Consistent with the previously proposed reorientation mechanism for the ADP,ATP translocator protein of mitochondria, evidence has now been obtained for the existence of two distinct conformational states of the isolated translocator protein. Previous studies indicated that when the mitochondrial translocator protein is in the c-state(i.e., when its binding site faces the cytosol side) the protein binds primarily the ligand carboxyatractylate (CAT), and when the translocator protein is in the m-state(i.e., when its binding site faces the mitochondrial matrix) the translocator protein binds primarily bongkrekate. Direct evidence for this formulation has now come from the application of antibodies to the isolated translocator protein-ligand complex. Two antibodies were produced against the ADP,ATP translocator protein isolated from beef heart mitochondria. One antibody, which was produced against the protein isolated as the CAT-binding protein complex, was found to be highly specific for that complex and did not react with the protein in the conformation state conferred by the bongkrekate ligand. This antibody did not cover the CAT-binding site, as evidenced by the exchange of unlabeled CAT with [35S]CAT bound to the translocator protein. However, the same antibody inhibited a transition of the protein from the c-state to the m-state, as evidenced by an inhibition of the displacement of[35S]CAT by bongkrekate (added jointly with ADP). It appears, therefore, that the antibody immobilized the translocator protein in the c-state. The second antibody produced against the (somewhat less pure) ADP,ATP translocator protein, isolated as the bongkrekate-binding protein complex, did not react with the CAT-binding protein. Thus, the second antibody appeared to be specific for the translocator protein in the m-state. Neither antibody inhibited mitochondrial ADP,ATP transport.
与先前提出的线粒体 ADP、ATP 转位蛋白的重新定向机制一致,现已获得证据表明分离的转位蛋白存在两种不同的构象状态。先前的研究表明,当线粒体转位蛋白处于 c 状态时(即其结合位点面向胞质溶胶侧),该蛋白主要结合配体羧基苍术苷(CAT),而当转位蛋白处于 m 状态时(即其结合位点面向线粒体基质),转位蛋白主要结合邦克酸。这一表述的直接证据现已来自针对分离的转位蛋白 - 配体复合物应用抗体。针对从牛心线粒体中分离出的 ADP、ATP 转位蛋白产生了两种抗体。一种抗体是针对作为 CAT 结合蛋白复合物分离出的蛋白产生的,发现它对该复合物具有高度特异性,并且不与由邦克酸配体赋予的构象状态下的蛋白发生反应。该抗体不覆盖 CAT 结合位点,未标记的 CAT 与结合在转位蛋白上的 [35S]CAT 的交换证明了这一点。然而,相同的抗体抑制了蛋白从 c 状态到 m 状态的转变,邦克酸(与 ADP 一起添加)对 [35S]CAT 的置换受到抑制证明了这一点。因此,似乎该抗体将转位蛋白固定在了 c 状态。针对作为邦克酸结合蛋白复合物分离出的(纯度稍低的)ADP、ATP 转位蛋白产生的第二种抗体,不与 CAT 结合蛋白发生反应。因此,第二种抗体似乎对处于 m 状态的转位蛋白具有特异性。两种抗体均未抑制线粒体 ADP、ATP 的转运。