猫网状丘脑神经元在体的电生理特性
Electrophysiological properties of cat reticular thalamic neurones in vivo.
作者信息
Contreras D, Curró Dossi R, Steriade M
机构信息
Laboratoire de Neurophysiologie, Faculté de Médecine, Université Laval, Québec, Canada.
出版信息
J Physiol. 1993 Oct;470:273-94. doi: 10.1113/jphysiol.1993.sp019858.
Abstract
- The electrophysiological properties of neurones of the reticular thalamic (RE) nucleus were studied in acutely prepared cats under urethane anaesthesia. 2. Two main types of neuronal firing were recorded. At the resting membrane potential (-60 to -65 mV) tonic repetitive firing was elicited when the cell was activated synaptically or by current injection. From membrane potentials more negative than -75 mV, synaptic or direct stimulation generated a burst of action potentials. 3. The burst of RE cells consisted of a discharge of four to eight spikes riding on a slowly growing and decaying depolarization. The discharge rate during the burst showed a characteristic increase, followed by a decrease in frequency. 4. The burst response behaved as a graded phenomenon, as its magnitude was modulated by changing the intensity of the synaptic volley or the intensity of the injected current. 5. Spike-like small potentials presumably of dendritic origin occurred spontaneously and were triggered by synaptic or direct stimulation. They were all-or-none, voltage-dependent events. We postulate that these spikes originate in several hot spots in the dendritic arbor, with no reciprocal refractoriness and may generate multi-component depolarizations at the somatic level. 6. Excitatory postsynaptic potentials (EPSPs) evoked by internal capsule stimulation consisted of two components, the late one being blocked by hyperpolarization. Such compound EPSPs were followed by a period of decreased excitability during which a second response was diminished in amplitude. 7. A series of depolarizing waves at the frequency range of spindle oscillations was triggered by internal capsule stimulation. The individual depolarizing waves constituting the spindle oscillation gradually decreased in amplitude when decreasing the intensity of the stimulation. 8. These results, showing that RE cells are endowed with an excitable dendritic tree and a graded bursting behaviour, support the proposed role of RE nucleus as the generator and synchronizer of spindle rhythmicity.
摘要
- 在氨基甲酸乙酯麻醉下,对急性制备的猫的丘脑网状核(RE)神经元的电生理特性进行了研究。2. 记录到两种主要的神经元放电类型。在静息膜电位(-60至-65 mV)时,当细胞通过突触激活或电流注入被激活时,会引发紧张性重复放电。当膜电位比-75 mV更负时,突触或直接刺激会产生一串动作电位。3. RE细胞的爆发由四到八个峰电位组成,这些峰电位叠加在一个缓慢上升和下降的去极化之上。爆发期间的放电频率呈现出特征性的先增加后降低。4. 爆发反应表现为一种分级现象,因为其幅度可通过改变突触冲动的强度或注入电流的强度来调节。5. 推测源于树突的尖峰状小电位自发出现,并由突触或直接刺激触发。它们是全或无的、电压依赖性事件。我们假设这些尖峰起源于树突分支中的几个热点,不存在相互不应期,并且可能在体细胞水平产生多成分去极化。6. 内囊刺激诱发的兴奋性突触后电位(EPSP)由两个成分组成,后期成分被超极化阻断。这种复合EPSP之后是一段兴奋性降低的时期,在此期间第二个反应的幅度减小。7. 内囊刺激触发了一系列纺锤体振荡频率范围内的去极化波。当降低刺激强度时,构成纺锤体振荡的各个去极化波的幅度逐渐减小。8. 这些结果表明RE细胞具有可兴奋的树突和分级爆发行为,支持了RE核作为纺锤体节律的产生器和同步器的 proposed role(此处原文有误,应是“proposed role”,意为“所提出的作用”)。
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