辛醇可缩短终板通道的寿命。
Octanol reduces end-plate channel lifetime.
作者信息
Gage P W, McBurney R N, Van Helden D
出版信息
J Physiol. 1978 Jan;274:279-98. doi: 10.1113/jphysiol.1978.sp012147.
Abstract
- Post-synaptic effects of n-octanol at concentrations of 0.1-1 mM were examined in toad sartorius muscles by use of extracellular and voltage-clamp techniques.2. Octanol depressed the amplitude and duration of miniature end-plate currents and hence depressed neuromuscular transmission.3. The decay of miniature end-plate currents remained exponential in octanol solutions even when the time constant of decay (tau(D)) was decreased by 80-90%.4. The lifetime of end-plate channels, obtained by analysis of acetylcholine noise, was also decreased by octanol. The average lifetime measured from noise spectra agreed reasonably well with the time constant of decay of miniature end-plate currents, both in control solution and in octanol solutions.5. Octanol caused a reduction in the conductance of end-plate channels. Single channel conductance was on average about 25 pS in control solution and 20 pS in octanol.6. In most cells the normal voltage sensitivity of the decay of miniature end-plate currents was retained in octanol solutions. The lifetime of end-plate channels measured from acetylcholine noise also remained voltage-sensitive in octanol solutions. In some experiments in which channel lifetime was exceptionally reduced the voltage sensitivity was less than normal.7. In octanol solutions, tau(D) was still very sensitive to temperature changes in most cells although in some the temperature sensitivity of tau(D) was clearly reduced. Changes in tau(D) with temperature could generally be fitted by the Arrhenius equation suggesting that a single step reaction controlled the decay of currents both in control and in octanol solutions. In some cells in which tau(D) became less than 0.3 ms, the relationship between tau(D) and temperature became inconsistent with the Arrhenius equation.8. As the decay of end-plate currents in octanol solutions remains exponential, and the voltage and temperature sensitivity can be unchanged even when tau(D) is significantly reduced, it seems likely that octanol decreases tau(D) by increasing the rate of the reaction which normally controls the lifetime of end-plate channels.
摘要
运用细胞外和电压钳技术,在蟾蜍缝匠肌中检测了浓度为0.1 - 1 mM的正辛醇的突触后效应。
辛醇降低了微小终板电流的幅度和持续时间,从而抑制了神经肌肉传递。
即使衰减时间常数(tau(D))降低了80 - 90%,微小终板电流在辛醇溶液中的衰减仍保持指数形式。
通过分析乙酰胆碱噪声得到的终板通道寿命也因辛醇而缩短。从噪声谱测量得到的平均寿命,在对照溶液和辛醇溶液中,与微小终板电流的衰减时间常数相当吻合。
辛醇导致终板通道电导降低。对照溶液中单个通道电导平均约为25 pS,辛醇中为20 pS。
在大多数细胞中,微小终板电流衰减的正常电压敏感性在辛醇溶液中得以保留。从乙酰胆碱噪声测量得到的终板通道寿命在辛醇溶液中也保持电压敏感性。在一些通道寿命异常缩短的实验中,电压敏感性低于正常水平。
在辛醇溶液中,大多数细胞的tau(D)对温度变化仍非常敏感,尽管在一些细胞中tau(D)的温度敏感性明显降低。tau(D)随温度的变化通常可用阿伦尼乌斯方程拟合,这表明在对照溶液和辛醇溶液中,单步反应控制着电流的衰减。在一些tau(D)小于0.3 ms的细胞中,tau(D)与温度的关系变得不符合阿伦尼乌斯方程。
由于辛醇溶液中终板电流的衰减保持指数形式,并且即使tau(D)显著降低,电压和温度敏感性仍可保持不变,所以辛醇可能是通过增加通常控制终板通道寿命的反应速率来降低tau(D)的。
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