Eldefrawi M E, Aronstam R S, Bakry N M, Eldefrawi A T, Albuquerque E X
Proc Natl Acad Sci U S A. 1980 Apr;77(4):2309-13. doi: 10.1073/pnas.77.4.2309.
The effects of receptor activation were studied on the interaction of perhydrohistrionicotoxin (H(12)-HTX) with the ionic channel of the nicotinic acetylcholine (AcCho) receptor in membranes from the electric organ of Torpedo ocellata and with the endplate region of the soleus muscle of the rat. In Torpedo membranes, the initial rate (i.e., within 30 sec) of [(3)H]H(12)-HTX bindings to the ionic channel of the AcCho receptor was accelerated 10(2)- to 10(3)-fold in the presence of carbamoylcholine (Carb). H(12)-HTX also inhibited Carb-activated (22)Na(+) influx, over 95% inhibition at 10 muM H(12)-HTX. At this concentration H(12)-HTX did not inhibit [(3)H]AcCho binding to the AcCho-receptor sites. There was good correspondence between the degree of acceleration of [(3)H]H(12)-HTX binding and the stimulation of (22)Na(+) influx over a wide range of Carb concentrations (up to 100 muM). Preincubation of Torpedo membranes with Carb decreased the initial rate of [(3)H]H(12)-HTX binding, as well as the rate of (22)Na(+) influx, which may reflect desensitization of the AcCho-receptor. d-Tubocurarine inhibited the agonist-mediated acceleration of [(3)H]H(12)-HTX binding and (22)Na(+) influx. In the soleus muscle endplate, H(12)-HTX inhibited the transient depolarization induced by microiontophoretic application of AcCho; the more receptors activated and channels opened, the stronger was the inhibition by H(12)-HTX. These findings suggest that H(12)-HTX binds to closed and open ionic channels, with a preference for the latter conformation. It is also suggested that the conformational changes associated with activation or desensitization of the receptor can be monitored by studying binding of [(3)H]H(12)-HTX to the ionic channel sites as well as by the AcCho-receptor-regulated (22)Na(+) influx.
研究了受体激活对全氢组氨酰毒素(H(12)-HTX)与眼斑电鳐电器官膜中烟碱型乙酰胆碱(AcCho)受体离子通道以及大鼠比目鱼肌终板区域相互作用的影响。在电鳐膜中,在氨甲酰胆碱(Carb)存在下,[(3)H]H(12)-HTX与AcCho受体离子通道结合的初始速率(即30秒内)加快了100到1000倍。H(12)-HTX还抑制了Carb激活的(22)Na(+)内流,在10 μM H(12)-HTX时抑制率超过95%。在此浓度下,H(12)-HTX不抑制[(3)H]AcCho与AcCho受体位点的结合。在很宽的Carb浓度范围(高达100 μM)内,[(3)H]H(12)-HTX结合的加速程度与(22)Na(+)内流的刺激之间存在良好的对应关系。用Carb预孵育电鳐膜会降低[(3)H]H(12)-HTX结合的初始速率以及(22)Na(+)内流的速率,这可能反映了AcCho受体的脱敏。d-筒箭毒碱抑制了激动剂介导的[(3)H]H(12)-HTX结合加速和(22)Na(+)内流。在比目鱼肌终板中,H(12)-HTX抑制了微量离子电泳施加AcCho诱导的瞬时去极化;激活的受体和开放的通道越多,H(12)-HTX的抑制作用越强。这些发现表明,H(12)-HTX与关闭和开放的离子通道结合,更倾向于后一种构象。还表明,与受体激活或脱敏相关的构象变化可以通过研究[(3)H]H(12)-HTX与离子通道位点的结合以及AcCho受体调节的(22)Na(+)内流来监测。