Weber M, David-Pfeuty T, Changeux J P
Proc Natl Acad Sci U S A. 1975 Sep;72(9):3443-7. doi: 10.1073/pnas.72.9.3443.
Exposure of receptor-rich membrane fragments from Torpedo marmorata to carbamylcholine causes a slow (half-time of 5--10 min) and reversible change of properties of the cholinergic receptor protein manifested by a decrease of the initial rate of Naja nigricollis alpha-[3H]toxin binding in the presence of carbamylcholine. This change corresponds to a 5- to 20-fold increase of affinity for carbamylcholine. Other agonists, acetylcholine, phenyltrimethylammonium, show the same effect but not the antagonists d-tubocurarine and flaxedil. Decamethonium and hexamethonium show little, if any, agonistic effect in vitro on the same membrane fragments but cause the affinity change. This regulatory property can be lost after aging of the preparation of membrane fragments. Since the affinity increase progresses with a similar time course as the decrease of amplitude of the permeability response consecutive to agonist preincubation, it is proposed that, in the membrane at rest, the receptor protein is present under a state of low affinity for agonists and that the reversible stabilization by the agonists of a high affinity state corresponds to the "pharmacological desensitization" of the system as predicted by one of the models of Katz and Thesleff.
将电鳐富含受体的膜片段暴露于氨甲酰胆碱会导致胆碱能受体蛋白特性发生缓慢(半衰期为5 - 10分钟)且可逆的变化,表现为在氨甲酰胆碱存在下,黑颈眼镜蛇α-[³H]毒素结合的初始速率降低。这种变化对应着对氨甲酰胆碱亲和力增加5至20倍。其他激动剂,如乙酰胆碱、苯三甲铵,也显示出相同的效果,但拮抗剂d -筒箭毒碱和加拉碘铵则不然。十烃季铵和六甲铵在体外对相同的膜片段几乎没有激动作用,但会引起亲和力变化。这种调节特性在膜片段制剂老化后可能会丧失。由于亲和力增加的时间进程与激动剂预孵育后通透性反应幅度降低的时间进程相似,因此有人提出,在静息膜中,受体蛋白以对激动剂低亲和力的状态存在,而激动剂对高亲和力状态的可逆稳定作用对应于Katz和Thesleff的一种模型所预测的系统“药理学脱敏”。