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美国卫生研究院文献>The Journal of Physiology
>The effect of a transient outward current (IA) on synaptic potentials in sympathetic ganglion cells of the guinea-pig.
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The effect of a transient outward current (IA) on synaptic potentials in sympathetic ganglion cells of the guinea-pig.
The responses to stimulation of preganglionic fibres have been studied in sympathetic neurones in ganglia of the caudal lumbar sympathetic chain (l.s.c.) and in the distal lobes of inferior mesenteric ganglia (i.m.g.) isolated from guinea-pigs. Most l.s.c. neurones were classified as 'phasic' and i.m.g. neurones as 'tonic' (see Cassell, Clark & McLachlan, 1986). The types of preganglionic inputs received by l.s.c. and i.m.g. neurones differed: l.s.c. cells almost invariably received at least one suprathreshold ('strong') input, in addition to several subthreshold ones; i.m.g. neurones more commonly received only subthreshold inputs via the lumbar splanchnic nerves. Prolonged discharges were evoked in some i.m.g. cells by stimulation of lumbar splanchnic nerves at strengths just supramaximal for the conventional fast synaptic responses. These appeared to arise from repetitive discharges evoked in other neurones intrinsic to the i.m.g. The time constants of decay of subthreshold synaptic currents recorded under voltage clamp in l.s.c. neurones (4.9 +/- 0.2 ms) were significantly shorter on average than those recorded in tonic i.m.g. cells (7.1 +/- 0.3 ms), although the values of time constant for the two populations overlapped. In phasic neurones, excitatory synaptic potentials (e.s.p.s) evoked at resting membrane potential by stimulation of preganglionic axons decayed with the same exponential time course as an electrotonic potential. In tonic neurones, the time course of decay of the e.s.p. was briefer, but always followed an exponential with the same time constant as the cell input time constant over the final part of the response. If tonic neurones were hyperpolarized by the passage of current through the recording micro-electrode, the time course of decay of the e.s.p. was prolonged and became the same as that of the electrotonic potential. The shape of e.s.p.s in phasic and tonic neurons could be mimicked in a computer model of the neurones incorporating the different activation/inactivation characteristics of the A current (IA) (Cassell et al. 1986) for each neurone type. It is concluded that, in addition to the contribution of IA to the rhythmic firing properties of tonic sympathetic neurones, this current also markedly inhibits the effects of excitatory synaptic conductance changes in this type of ganglion cell.
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机译:已在从豚鼠分离的尾部腰交感神经链神经节(l.s.c.)和肠系膜下神经节远端(i.m.g.)的交感神经元中研究了对神经节前纤维刺激的反应。大多数L.S.C.神经元被分类为“相”和神经元为“强音”(参见Cassell,Clark和McLachlan,1986年)。 l.s.c.收到的神经节前输入的类型而我神经元有所不同:l.s.c.除了几个亚阈值信号外,细胞几乎总是收到至少一个阈值(“强”)信号;我是神经元通常仅通过腰部内脏神经接收阈下输入。在某些情况下,引起长时间的放电。通过以常规快速突触反应的最大刺激强度刺激内脏神经来刺激细胞。这些似乎是由i.m.g的其他固有神经元引起的重复放电引起的。 l.s.c中在电压钳制下记录的亚阈值突触电流衰减的时间常数。平均而言,神经元(4.9 +/- 0.2毫秒)明显短于补品中记录的神经元。个单元(7.1 +/- 0.3毫秒),尽管两个种群的时间常数值重叠。在相性神经元中,通过刺激神经节前轴突而在静息膜电位上诱发的兴奋性突触电位(e.s.p.s)以与电动势相同的指数时间过程衰减。在强直神经元中,e.s.p.衰减的时间过程比较简短,但在响应的最后部分始终遵循与单元格输入时间常数相同的时间常数的指数。如果通过电流通过记录微电极使强直神经元超极化,则e.s.p.被延长,并变得与电渗电位相同。可以在神经元的计算机模型中模拟相位和补语神经元中的e.s.p.s形状,其中包含了每种神经元类型的A电流(IA)的不同激活/失活特性(Cassell et al.1986)。结论是,除了IA对强直交感神经元的节律性放电特性的贡献外,该电流还显着抑制了这种神经节细胞兴奋性突触电导变化的影响。
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