猫脊髓运动神经元中回返性和Ia类群抑制系统的空间突触分布
Spatial synaptic distribution of recurrent and group Ia inhibitory systems in cat spinal motoneurones.
作者信息
Burke R E, Fedina L, Lundberg A
出版信息
J Physiol. 1971 Apr;214(2):305-26. doi: 10.1113/jphysiol.1971.sp009434.
Abstract
- The reversal potentials of several types of inhibitory post-synaptic potentials (IPSPs) have been studied in cat spinal motoneurones with and without modification of intracellular chloride ion (Cl(-)) concentration. Single barrel intracellular micropipette electrodes have been used.2. When studied with potassium citrate filled micropipettes, the reversal potential for IPSPs evoked by stimulation of antagonist group Ia afferents is the same as that for recurrent IPSPs evoked by antidromic stimulation of motoneurone axon collaterals, confirming earlier observations (Araki, Ito & Oscarsson, 1961; Coombs, Eccles & Fatt, 1955).3. Studied with potassium chloride filled micropipettes. the reversal potential for the group Ia IPSP was found to be different from that for the recurrent IPSP when the amount of Cl(-) diffusing or iontophoretically injected into the motoneurone was small. The amount of difference in reversal potential varied from cell to cell but when present the group Ia IPSP reversed to a depolarizing potential more readily than the recurrent IPSP in all cases.4. Interaction between recurrent IPSPs and monosynaptic excitatory post-synaptic potentials (EPSPs) was also studied and the amount of non-linearity of potential summation was measured.5. The results are consistent with the hypothesis that the terminations of Renshaw cells responsible for the recurrent IPSP are located largely on the proximal dendrites of motoneurones, while the terminations of the interneurones generating the group Ia IPSP appear to be closer to or on the cell somata.
摘要
研究了猫脊髓运动神经元中几种抑制性突触后电位(IPSPs)的反转电位,同时改变或未改变细胞内氯离子(Cl(-))浓度。使用了单管细胞内微电极吸管。
当用柠檬酸钾填充的微电极吸管进行研究时,刺激拮抗肌Ia类传入纤维诱发的IPSP的反转电位与通过运动神经元轴突侧支的逆向刺激诱发的回返性IPSP的反转电位相同,这证实了早期的观察结果(荒木、伊藤和奥斯卡松,1961年;库姆斯、埃克尔斯和法特,1955年)。
用氯化钾填充的微电极吸管进行研究时,当扩散或离子电渗注入运动神经元的Cl(-)量较少时,发现Ia类IPSP的反转电位与回返性IPSP的反转电位不同。反转电位的差异量因细胞而异,但在所有情况下,当存在差异时,Ia类IPSP比回返性IPSP更容易反转到去极化电位。
还研究了回返性IPSP与单突触兴奋性突触后电位(EPSPs)之间的相互作用,并测量了电位总和的非线性程度。
结果与以下假设一致:负责回返性IPSP的闰绍细胞的终末主要位于运动神经元的近端树突上,而产生Ia类IPSP的中间神经元的终末似乎更靠近细胞体或位于细胞体上。
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