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猫运动皮层VI层锥体细胞的电生理和形态学特征

Electrophysiological and morphological characteristics of layer VI pyramidal cells in the cat motor cortex.

作者信息

Kang Y, Kayano F

机构信息

Department of Physiology, Faculty of Medicine, Kyoto University, Japan.

出版信息

J Neurophysiol. 1994 Aug;72(2):578-91. doi: 10.1152/jn.1994.72.2.578.

DOI:10.1152/jn.1994.72.2.578
PMID:7983520
Abstract
  1. Intracellular recordings were made from layer VI pyramidal cells in in vitro slice preparations of the cat motor cortex (area 4 gamma). Layer VI pyramidal cells were identified morphologically by intracellular injection of biocytin. 2. Of 22 layer VI pyramidal cells examined, single action potentials were followed by depolarizing afterpotentials (DAP) in 9 cells, but were not followed by DAP in the remaining 13 cells. The amplitude of DAP was 3.4 +/- 1.4 mV (mean +/- SD, n = 9) when measured from the negative peak of fast afterhyperpolarization to the peak of DAP. 3. In response to depolarizing current pulses with a duration of 300-400 ms, pyramidal cells showing DAP displayed a train of action potentials in a phasic-tonic pattern without any appreciable adaptation in the tonic firing, whereas pyramidal cells lacking DAP exhibited a weak adaptation after phasic firing. Anomalous rectification was seen in both pyramidal cells showing DAP and those lacking DAP. 4. Repetitive doublet or triplet spiking was induced in DAP-showing pyramidal cells in response to a depolarizing current pulse after injecting strong depolarizing current pulses of 400 ms duration at 1 Hz for 30-60 s, but was never induced in DAP-lacking pyramidal cells. Doublet/triplet spiking lasted 5-10 min and returned to the original single spiking. An application of CsCl induced a burst firing in DAP-showing pyramidal cells. 5. In the nine pyramidal cells showing DAP, seven cells had shorter apical dendrites that arborized extensively at layer V and terminated in the middle part of layer III. In the 13 pyramidal cells lacking DAP, 11 cells had longer apical dendrites that arborized less frequently and extended into layer II or I. Main axons could be traced into the deep white matter in 17 of the 22 layer VI pyramidal cells examined. 6. Ascending recurrent axon collaterals were more prominent in pyramidal cells with longer apical dendrites than in pyramidal cells with shorter apical dendrites. The terminal bouton-like swelling observed along the recurrent axon collaterals arising from the pyramidal cells with longer apical dendrite were distributed most densely at the level between the bottom part of layer III and the top part of layer V. In contrast, those arising from the pyramidal cells with shorter apical dendrite were distributed mainly at the levels of layers V and VI.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 在猫运动皮层(4区γ)的体外脑片制备中,从VI层锥体细胞进行细胞内记录。通过细胞内注射生物素对VI层锥体细胞进行形态学鉴定。2. 在检查的22个VI层锥体细胞中,9个细胞在单个动作电位后跟随有去极化后电位(DAP),而其余13个细胞则没有。从快速超极化后的负峰测量到DAP的峰,DAP的幅度为3.4±1.4 mV(平均值±标准差,n = 9)。3. 对于持续时间为300 - 400 ms的去极化电流脉冲,显示DAP的锥体细胞以相位 - 紧张模式显示一连串动作电位,在紧张性放电中没有明显的适应性,而缺乏DAP的锥体细胞在相位性放电后表现出较弱的适应性。在显示DAP和缺乏DAP的锥体细胞中均观察到反常整流。4. 在以1 Hz的频率施加持续400 ms的强去极化电流脉冲30 - 60 s后,向显示DAP的锥体细胞施加去极化电流脉冲会诱导重复的双棘波或三棘波发放,但在缺乏DAP的锥体细胞中从未诱导出这种发放。双棘波/三棘波发放持续5 - 10分钟,然后恢复到原来的单棘波发放。应用氯化铯会在显示DAP的锥体细胞中诱导爆发性放电。5. 在显示DAP的9个锥体细胞中,7个细胞的顶端树突较短,在V层广泛分支并终止于III层中部。在缺乏DAP的13个锥体细胞中,11个细胞的顶端树突较长,分支较少并延伸到II层或I层。在所检查的22个VI层锥体细胞中的17个中,可以追踪到主轴突进入深层白质。6. 顶端树突较长的锥体细胞中的上行回返轴突侧支比顶端树突较短的锥体细胞中的更明显。沿着顶端树突较长的锥体细胞产生的回返轴突侧支观察到的终末纽扣样肿胀最密集地分布在III层底部和V层顶部之间的水平。相比之下,顶端树突较短的锥体细胞产生的那些侧支主要分布在V层和VI层水平。(摘要截断于400字)

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