青蛙神经肌肉接头的离子特性:去神经支配和pH值的影响。
Ionic properties of the neuromuscular junction of the frog: effects of denervation and pH.
作者信息
Mallart A, Trautmann A
出版信息
J Physiol. 1973 Nov;234(3):553-67. doi: 10.1113/jphysiol.1973.sp010360.
Abstract
- The effects of denervation, reinnervation and pH on the ionic permeability changes mediated by junctional receptors have been studied in muscle fibres of the frog sartorius.2. The reversal potential of acetylcholine responses in denervated junctions was about 25 mV more negative than in normal junctions.3. The delay of the change in the ionic properties of junctional receptors was proportional to the nerve stump length: 10 and 14 days for lengths of 12 and 33 mm, respectively.4. When the motor nerve reinnervates the junction, the reversal potential of the acetylcholine responses comes back to the normal value before the neuromuscular transmission is restored.5. The Na/K conductance change decreases in high pH solutions. After denervation, the pH profile of this ratio is shifted to the acid values by about two pH units.6. These observations can be explained by assuming that the Na and K channels differ by the pK of their anionic groups and that the denervation induces an alteration of the sites that bear the charges.
摘要
在青蛙缝匠肌纤维中,研究了去神经、再神经支配和pH对由接头受体介导的离子通透性变化的影响。
去神经接头中乙酰胆碱反应的反转电位比正常接头约负25 mV。
接头受体离子特性变化的延迟与神经残端长度成正比:神经残端长度为12和33 mm时,延迟分别为10天和14天。
当运动神经对接头进行再神经支配时,在神经肌肉传递恢复之前,乙酰胆碱反应的反转电位恢复到正常值。
在高pH溶液中,Na/K电导变化减小。去神经后,该比率的pH曲线向酸性值偏移约两个pH单位。
这些观察结果可以通过假设Na和K通道的阴离子基团的pK不同,以及去神经会引起带电荷位点的改变来解释。
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