Cho Ryong-Ho, Segawa Satoko, Mizuno Akio, Kaneko Takeshi
Department of Developmental and Reconstructive Medicine, Division of Oral and Maxillofacial Surgery, Course of Medical and Dental Sciences, Nagasaki University Graduate School of Biomedical Sciences, Nagasaki 852-8102, Japan.
Neurosci Res. 2004 Dec;50(4):381-94. doi: 10.1016/j.neures.2004.08.006.
To study cortical motor control, we examined electrical characteristics of pyramidal neurons in the present report, and intra- or juxta-columnar connections of the pyramidal neurons to corticospinal neurons in the accompanying report. Pyramidal neurons were intracellularly recorded and stained in slices of rat motorsensory cortices (areas FL, HL and M1) where many corticospinal neurons were labeled retrogradely. They were morphologically classified into classical, star and other modified pyramidal neurons, and electrophysiologically into regular-spiking (RS), intrinsic bursting (IB) and irregular-spiking (IS) neurons on the basis of spiking pattern in response to 500 ms depolarizing current pulses. RS responses were further divided into RS with slow adaptation (RS-SA) and RS with fast adaptation (RS-FA). The electrical properties were associated with the laminar location of the neurons; RS-SA responses were observed frequently in layer II/III and less frequently in layers IV-VI, and IB and IS responses were exclusively found in layers V and VI, respectively. Interestingly, all layer IV neurons in area FL/HL were RS-FA star-pyramidal neurons, whereas layer IV neurons in area M1 were RS-SA classical pyramidal neurons. Although weak stimulation of areas FL/HL and M1 is known to elicit movement, these results suggest different information processings between the two areas.
为了研究皮质运动控制,在本报告中我们检测了锥体神经元的电特性,并在随附报告中检测了锥体神经元与皮质脊髓神经元之间的柱内或柱旁连接。在大鼠运动感觉皮层(FL、HL和M1区)切片中对锥体神经元进行细胞内记录和染色,其中许多皮质脊髓神经元被逆行标记。根据其形态,它们被分为经典型、星型和其他改良型锥体神经元;根据对500毫秒去极化电流脉冲的放电模式,在电生理上被分为规则放电(RS)、内在爆发(IB)和不规则放电(IS)神经元。RS反应进一步分为慢适应RS(RS-SA)和快适应RS(RS-FA)。电特性与神经元的层位相关;RS-SA反应在II/III层中频繁观察到,而在IV-VI层中较少观察到,IB和IS反应分别仅在V层和VI层中发现。有趣的是,FL/HL区的所有IV层神经元都是RS-FA星型锥体神经元,而M1区的IV层神经元是RS-SA经典锥体神经元。尽管已知对FL/HL区和M1区的弱刺激会引发运动,但这些结果表明这两个区域之间存在不同的信息处理方式。
