青蛙神经肌肉接头处的脱敏作用:一个双相过程。
Desensitization at the frog neuromuscular junction: a biphasic process.
作者信息
Feltz A, Trautmann A
出版信息
J Physiol. 1982 Jan;322:257-72. doi: 10.1113/jphysiol.1982.sp014036.
Abstract
- The desensitization of the cholinergic receptor has been investigated at the frog neuromuscular junction. The agonist was either perfused or applied by ionophoresis.2. In all situations, desensitization develops in two phases: a fast one, experimentally in the second range but likely to be briefer, and a slower one, which extends over tens of seconds.3. When the presence of the agonist is prolonged, desensitization approaches a steady state, estimated through the amplitude of a test response. In steady-state conditions, this amplitude depends upon the desensitizing agonist concentration. The dose-response curve for desensitization induced by carbachol (CCh) indicates that half of the receptors can be desensitized at room temperature in the presence of 2.3 mum-CCh. The shape of the curve suggests that one desensitized receptor can bind two CCh molecules.4. The recovery from desensitization, estimated with a repetitive test pulse, displays two exponential phases. The time constant of the fast phase is 11-12 sec, and 4-5 min for the slow phase, regardless of the concentration or the nature of the agonist (acetylcholine or carbachol).5. The factor which most strikingly affects the relative amplitudes of the fast and slow phases of recovery is the duration of the (desensitizing) agonist application. Desensitizations lasting a few seconds are followed by a ;fast' recovery, whereas the slow phase of recovery is prominent when the agonist has been applied for more than 2 min.6. The fast and slow phases of desensitization onset and offset are not due to independent causes but are coupled: in given conditions, the onset can be essentially fast, and the recovery slow.7. All our findings can fit in a cyclic scheme of desensitization, derived from the one of Katz & Thesleff (1957) with two modifications: whether activatable or desensitized, one receptor molecule would have two agonist binding sites; moreover, the desensitized receptor would exist in two distinct and interconverting conformations: D(1), giving rise to the fast phases of onset and offset, and D(2), responsible for the existence of the slow components of desensitization.
摘要
已经在青蛙神经肌肉接头处研究了胆碱能受体的脱敏作用。激动剂通过灌注或离子电泳施加。
在所有情况下,脱敏作用分两个阶段发展:一个快速阶段,实验上在秒范围内但可能更短暂,以及一个较慢阶段,持续数十秒。
当激动剂的存在时间延长时,脱敏作用接近稳定状态,通过测试反应的幅度来估计。在稳定状态下,这个幅度取决于脱敏激动剂的浓度。由卡巴胆碱(CCh)诱导的脱敏作用的剂量 - 反应曲线表明,在室温下,存在2.3 μM - CCh时,一半的受体可以被脱敏。曲线的形状表明一个脱敏受体可以结合两个CCh分子。
用重复测试脉冲估计的脱敏恢复显示出两个指数阶段。快速阶段的时间常数为11 - 12秒,慢速阶段为4 - 5分钟,与激动剂(乙酰胆碱或卡巴胆碱)的浓度或性质无关。
最显著影响恢复的快速和慢速阶段相对幅度的因素是(脱敏)激动剂应用的持续时间。持续几秒的脱敏作用之后是“快速”恢复,而当激动剂应用超过2分钟时,恢复的慢速阶段很明显。
脱敏开始和结束的快速和慢速阶段不是由独立原因引起的,而是相互关联的:在给定条件下,开始可以基本上是快速的,而恢复是缓慢的。
我们所有的发现都可以符合一种脱敏的循环模式,该模式源自Katz和Thesleff(1957)的模式,有两个修改:无论可激活还是脱敏,一个受体分子都有两个激动剂结合位点;此外,脱敏受体将以两种不同且相互转化的构象存在:D(1),导致开始和结束的快速阶段,以及D(2),负责脱敏的慢速成分的存在。
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