影响假递质掺入哺乳动物运动神经末梢速率的因素。
Factors affecting the rate of incorporation of a false transmitter into mammalian motor nerve terminals.
作者信息
Large W A, Rang H P
出版信息
J Physiol. 1978 Dec;285:1-24. doi: 10.1113/jphysiol.1978.sp012553.
Abstract
- The incorporation of acetylmonoethylcholine (AMECh) into transmitter store at the mammalian neuromuscular junction has been studied using electrophysiological techniques. 2. Incubation of rat muscle in the presence of 0.1 mM-monoethylcholine (MECh) and 40 mM-K+ for 60-90 min produced a maximal reduction in the time constant of decay of synaptic currents and potentials, indicating that acetylcholine (ACh) had been replaced by AMECh in the released quanta. 3. Under resting conditions, muscles incubated for up to 24 hr in the presence of MECh showed no incorporation of AMECh into the released transmitter. In contrast, muscles pre-loaded with AMECh and then incubated in choline-containing medium showed a substantial reversion to ACh in the released transmitter within 4 hr. 4. It is suggested that this difference results from the rate of synthesis or packaging of transmitter being considerably slower with MECh than with choline, so that stimulation in the presence of MECh causes an over-all depletion of transmitter stores that does not occur with choline as the precursor. Measurements of m.e.p.c. amplitude following K+-evoked release in the presence of MECh or choline confirmed this interpretation. 5. In order to test whether newly formed AMECh is incorporated into a single homogeneous pool of transmitter from which the released quanta are derived, the rate of incorporation of AMECh into the released transmitter was measured as a function of the number of quanta released when transmitter output was increased by various methods. 6. The number of quanta released before 63% conversion of the released transmitter to AMECh was brought about varied from 1.3 X 10(5) (nerve stimulation at 3 Hz) to about 4 X 10(5) (release by high-K+ solution). With nerve stimulation in Mg2+-blocked muscles the value was 2.5 X 10(5). 7. Incorporation of AMECh into the quanta released by nerve stimulation appeared to take place more rapidly than its incorporation into spontaneously released quanta. 8. These results are discussed in terms of the compartmentation of transmitter stores in the nerve terminals.
摘要
- 已使用电生理技术研究了乙酰单乙胆碱(AMECh)在哺乳动物神经肌肉接头处纳入递质储存库的情况。2. 将大鼠肌肉在0.1 mM单乙胆碱(MECh)和40 mM钾离子存在下孵育60 - 90分钟,可使突触电流和电位衰减的时间常数最大程度降低,这表明在释放的量子中乙酰胆碱(ACh)已被AMECh取代。3. 在静息条件下,在MECh存在下孵育长达24小时的肌肉,未显示AMECh纳入释放的递质中。相反,预先加载AMECh然后在含胆碱培养基中孵育的肌肉,在4小时内释放的递质中显示出大量向ACh的逆转。4. 有人认为这种差异是由于递质的合成或包装速率与胆碱相比,MECh要慢得多,因此在MECh存在下的刺激会导致递质储存库的总体耗竭,而以胆碱作为前体时不会出现这种情况。在MECh或胆碱存在下钾离子诱发释放后对微小终板电位(m.e.p.c.)幅度的测量证实了这一解释。5. 为了测试新形成的AMECh是否纳入一个单一的均匀递质池中,从中衍生出释放的量子,当通过各种方法增加递质输出时,测量AMECh纳入释放递质的速率作为释放量子数的函数。6. 在释放的递质转化为AMECh达到63%之前释放的量子数,从1.3×10⁵(3 Hz神经刺激)到约4×10⁵(高钾溶液释放)不等。在镁离子阻断的肌肉中进行神经刺激时,该值为2.5×10⁵。7. AMECh纳入神经刺激释放的量子似乎比纳入自发释放的量子发生得更快。8. 根据神经末梢中递质储存库的区室化对这些结果进行了讨论。
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