Kano M, Kano M S, Maekawa K
Department of Physiology, Jichi Medical School, Tochigi, Japan.
Exp Brain Res. 1991;87(3):484-96. doi: 10.1007/BF00227074.
Under anesthesia with N2O (70%) and halothane (2-4%), Purkinje cell activities were extracellularly recorded in the flocculus and nodulus of immobilized pigmented rabbits. Large field (60 degrees x 60 degrees) optokinetic stimulation (OKS) was delivered to the central visual field of one eye with a constant velocity (0.1-4.0 degrees/s) at 0 degrees, 45 degrees, 90 degrees or 135 degrees to the horizontal plane of the eye. Most of the Purkinje cells in the flocculus and the nodulus showed significant simple spike modulations to OKS delivered to either eye. As a whole, the preferred directions of simple spike responses in the flocculus had the same orientation as those of complex spike responses. However, the preferred directions and amplitudes of modulation of simple spike responses did not necessarily correlate with those of complex spike responses in individual flocculus Purkinje cells. On the other hand, the preferred directions of simple and complex spike responses were not necessarily in the same orientation in the nodulus. The optimum velocity for simple spike responses was in the range 0.1-2.0 degrees/s for Purkinje cells in both the flocculus and the nodulus. The amplitude and time to peak of the simple spike responses of nodulus Purkinje cells were significantly smaller and longer, respectively, than those of flocculus Purkinje cells. In both the flocculus and the nodulus, Purkinje cells whose simple spikes preferred the horizontal orientation (H cells) and the vertical orientation (V cells) showed clustering. In particular, zonal organization was noted in the flocculus. H cells were localized in a dorso-ventral zone in the rostral one third of the flocculus, and V cells were in two distinct zones rostral and caudal to the H cell zone. The locations of H and V cells in the flocculus correspond to the H zone and V zones, respectively, determined on the basis of the preferred directions of complex spike responses to OKS. This indicates that the same subdivisions of the flocculus are supplied with optokinetic signals with the same orientation selectively through both mossy and climbing fibers, and suggest that such subdivisions of the flocculus are functional units which control horizontal and vertical components of optokinetic eye movements. The present results indicate that the flocculus and the nodulus are supplied with distinct optokinetic signals through mossy fibers and play different roles in controlling optokinetic eye movements.
在一氧化二氮(70%)和氟烷(2 - 4%)麻醉下,在固定的有色家兔的绒球和小结中细胞外记录浦肯野细胞活动。以恒定速度(0.1 - 4.0度/秒)在相对于眼睛水平面0度、45度、90度或135度的方向上,对一只眼睛的中央视野进行大视野(60度×60度)视动刺激(OKS)。绒球和小结中的大多数浦肯野细胞对传递到任一只眼睛的OKS都表现出显著的简单锋电位调制。总体而言,绒球中简单锋电位反应的偏好方向与复杂锋电位反应的偏好方向具有相同的取向。然而,单个绒球浦肯野细胞中简单锋电位反应的偏好方向和调制幅度不一定与复杂锋电位反应的偏好方向和幅度相关。另一方面,小结中简单和复杂锋电位反应的偏好方向不一定在同一取向上。绒球和小结中浦肯野细胞简单锋电位反应的最佳速度在0.1 - 2.0度/秒范围内。小结浦肯野细胞简单锋电位反应的幅度和峰值时间分别显著小于和长于绒球浦肯野细胞。在绒球和小结中,其简单锋电位偏好水平取向(H细胞)和垂直取向(V细胞)的浦肯野细胞呈现聚集现象。特别是,在绒球中观察到带状组织。H细胞位于绒球前三分之一的背腹区,V细胞位于H细胞区前后的两个不同区域。绒球中H细胞和V细胞的位置分别对应于根据对OKS的复杂锋电位反应的偏好方向确定的H区和V区。这表明绒球的相同细分区域通过苔藓纤维和攀缘纤维选择性地被赋予相同取向的视动信号,并表明绒球的这种细分区域是控制视动眼运动水平和垂直分量的功能单元。目前的结果表明,绒球和小结通过苔藓纤维被赋予不同的视动信号,并在控制视动眼运动中发挥不同作用。
