关于钠泵抑制剂加速运动神经末梢递质自发释放的机制的一则笔记。
A note of the mechanism by which inhibitors of the sodium pump accelerate spontaneous release of transmitter from motor nerve terminals.
作者信息
Baker P F, Crawford A C
出版信息
J Physiol. 1975 May;247(1):209-26. doi: 10.1113/jphysiol.1975.sp010928.
Abstract
- The actions of 0-1 mM ouabain and of K-free Ringer have been examined at the frog neuromuscular junction. 2. After a delay of more than 30 min, ouabain produces an increase in the miniature end-plate potential (m.e.p.p.) frequency. This increase occurs unchanged in Ca-free Ringer containing 1 mM-EGTA and is therefore unlikely to be due to an entry of Ca into the motor nerve terminals. 3. If the nerve to the preparation is stimulated repetitively in Ca-free Ringer containing 0-1 mM ouabain and 1 mM-EGTA the response of the m.e.p.p. frequency depends on the timing of the tetanus relative to the beginning of the ouabain treatment. 4. During the first 30 min of exposure to ouabain, the tetanus produces a small, transient increase in the m.e.p.p. frequency similar to that which occurs before ouabain is present. After about 30 min the same tetanus produces large, irreversible increases in the m.e.p.p. frequency. 5. Superfusion of an end-plate with K-free Ringer causes an immediate exponential rise in the m.e.p.p. frequency that is unaffected by the presence of external Ca ions. On replacing the normal K of the Ringer (2 mM) the m.e.p.p. frequency recovers quickly to its original value. 6. Late in an exposure to 0-1 mM ouabain the m.e.p.p. frequency becomes extremely sensitive to changes in the external Na concentration, [Na]o. Reducing [Na]o increases the m.e.p.p. frequency. The sensitivity to [Na]o is independent of external Ca ions or whether the isotonic substitute for NaCl is LiCl or sucrose. 7. It is suggested that the spontaneous release of transmitter is facilitated, in some way, by the changes in the monovalent cation content of the nerve terminals that result from blocking the Na-K exchange pump. The Na sensitivity of the m.e.p.p. frequency that develops simultaneously can be explained if a Na-dependent Ca efflux system is present in the membrane of the presynaptic terminals.
摘要
- 已在青蛙神经肌肉接头处研究了0 - 1 mM哇巴因和无钾林格液的作用。2. 延迟超过30分钟后,哇巴因使微小终板电位(m.e.p.p.)频率增加。在含1 mM - EGTA的无钙林格液中,这种增加保持不变,因此不太可能是由于钙进入运动神经末梢所致。3. 如果在含0 - 1 mM哇巴因和1 mM - EGTA的无钙林格液中对标本的神经进行重复刺激,m.e.p.p.频率的反应取决于强直刺激相对于哇巴因处理开始的时间。4. 在暴露于哇巴因的最初30分钟内,强直刺激使m.e.p.p.频率产生一个小的、短暂的增加,类似于在哇巴因存在之前发生的情况。大约30分钟后,相同的强直刺激使m.e.p.p.频率产生大的、不可逆的增加。5. 用无钾林格液灌流终板会使m.e.p.p.频率立即呈指数上升,这不受外部钙离子存在的影响。当恢复林格液中的正常钾(2 mM)时,m.e.p.p.频率迅速恢复到其原始值。6. 在暴露于0 - 1 mM哇巴因后期,m.e.p.p.频率对外界钠浓度[Na]o的变化变得极其敏感。降低[Na]o会增加m.e.p.p.频率。对[Na]o的敏感性与外部钙离子无关,也与等渗替代NaCl的是LiCl还是蔗糖无关。7. 有人提出,阻断钠 - 钾交换泵导致神经末梢单价阳离子含量的变化以某种方式促进了递质的自发释放。如果突触前末梢膜中存在钠依赖性钙外流系统,那么同时出现的m.e.p.p.频率对钠的敏感性就可以得到解释。
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