乌龟脊髓体外制备中背角的爆发式神经元。
Burst-generating neurones in the dorsal horn in an in vitro preparation of the turtle spinal cord.
作者信息
Russo R E, Hounsgaard J
机构信息
Department of Medical Physiology, Panum Institute, University of Copenhagen, Denmark.
出版信息
J Physiol. 1996 May 15;493 ( Pt 1)(Pt 1):55-66. doi: 10.1113/jphysiol.1996.sp021364.
Abstract
- In transverse slices of the spinal cord of the turtle, intracellular recordings were used to characterize and analyse the responses to injected current and activation of primary afferents in dorsal horn neurones. 2. A subpopulation of neurones, with cell bodies located centrally in the dorsal horn, was distinguished by the ability to generate a burst response following a hyperpolarization from rest or during a depolarization from a hyperpolarized holding potential. The burst response was inactivated at the resting membrane potential. 3. The burst response was mediated by a low threshold Ca2+ spike assumed to be mediated by T-type Ca2+ channels since it resisted tetrodotoxin and was blocked by 3 mM Co2+ or 100-300 microM Ni2+ and resembled the low threshold spike (LTS) described elsewhere. 4. Some burst-generating cells also displayed plateau potentials mediated by L-type Ca2+ channels. In these cells the burst following a hyperpolarizing current pulse, applied from the resting membrane potential, facilitated the activation of the plateau potential. Wind-up of the plateau potential was produced when the hyperpolarizing pulse generating the burst was repeated at 0.1-0.3 Hz or faster. 5. The burst response and the underlying low threshold Ca2+ spike were activated synaptically by primary afferent stimuli in a voltage range hyperpolarized from the resting membrane potential. 6. Cells with bursts were morphologically distinguishable from cells with bursts and plateau properties. 7. Our findings in this and the preceding paper show that the intrinsic response properties of particular subtypes of neurones in the dorsal horn have a profound influence on the amplitude and time course of the responses mediated by primary afferent fibres. We predict that these postsynaptic properties are probable targets for synaptic modulation.
摘要
- 在乌龟脊髓的横向切片中,采用细胞内记录来表征和分析背角神经元对注入电流和初级传入纤维激活的反应。2. 一群神经元,其细胞体位于背角中央,其特征是在从静息状态超极化或从超极化的钳制电位去极化期间能够产生爆发性反应。爆发性反应在静息膜电位时失活。3. 爆发性反应由低阈值Ca2+ 尖峰介导,假定由T型Ca2+ 通道介导,因为它对河豚毒素有抗性,并被3 mM Co2+ 或100 - 300 microM Ni2+ 阻断,且类似于其他地方描述的低阈值尖峰(LTS)。4. 一些产生爆发的细胞还表现出由L型Ca2+ 通道介导的平台电位。在这些细胞中,从静息膜电位施加超极化电流脉冲后的爆发促进了平台电位的激活。当以0.1 - 0.3 Hz或更快的频率重复产生爆发的超极化脉冲时,会产生平台电位的增强。5. 爆发性反应和潜在的低阈值Ca2+ 尖峰在从静息膜电位超极化的电压范围内被初级传入刺激突触激活。6. 有爆发的细胞在形态上与具有爆发和平台特性的细胞不同。7. 我们在本文及前文的研究结果表明,背角中特定亚型神经元的内在反应特性对初级传入纤维介导的反应的幅度和时间进程有深远影响。我们预测这些突触后特性可能是突触调制的目标。
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本文引用的文献
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Plateau-generating neurones in the dorsal horn in an in vitro preparation of the turtle spinal cord.在乌龟脊髓的体外制备中,背角中的平台生成神经元。
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