Grasse K L, Cynader M S
J Neurophysiol. 1984 Feb;51(2):276-93. doi: 10.1152/jn.1984.51.2.276.
Visual responses were examined quantitatively in 96 units in the lateral (LTN) and dorsal (DTN) terminal nuclei of the cat accessory optic system (AOS). The receptive fields of LTN and DTN cells were quite large, with an average diameter of approximately 60 degrees. Individual cell receptive fields, which could be as small as 30 degrees vertically by 15 degrees horizontally or as large as 100 by 100 degrees, always included the area centralis. Large, moving textured stimuli provoked optimal modulation in these cells. In response to a 100 by 80 degrees random-dot pattern moving at a constant velocity, nearly all cells in both the LTN and DTN displayed a high degree of direction selectivity. Directional response profiles were subjected to a vector analysis that generated two quantities proportional to the direction and magnitude of the major excitatory (E vectors) and inhibitory (I vectors) responses of individual cells. Directional vectors of the LTN displayed a strikingly bimodal distribution: E vectors of individual LTN cells pointed either upward (25 of 49) or downward (23 of 49). I vectors also pointed either up or down in a direction opposite to that of the E vector for the same cell. E and I vectors in both LTN and DTN units were separated by approximately 180 degrees. With few exceptions, E vectors of DTN cells pointed in a horizontal-medial direction, while DTN I vectors pointed in a horizontal-lateral direction. A relatively broad range of stimulus velocities (0.8-102.4 degrees/s) evoked maximal excitation in individual LTN units. The majority of LTN cells, however, achieved maximal excitation at velocities between 0.8 and 12.8 degrees/s. The deepest inhibition was elicited over a range of velocities from 0.2 to 102.4 degrees/s, with two major peaks at 0.8 and 12.8 degrees/s. A similar range of velocity sensitivity was observed in DTN cells: maximal excitation was obtained for stimulus velocities from 1.6 to 102.4 degrees/s, with most DTN cells showing the greatest excitatory response between 6.4 and 12.8 degrees/s. A broad range of inhibitory velocity tuning was also observed in DTN units, with most cells exhibiting the deepest inhibitory modulation at 25.6 degrees/s. The majority of LTN and DTN units were driven most effectively through the eye contralateral to the recording site. Nonetheless, a large percentage of LTN (78%) and DTN (93%) cells could be driven to some extent through both eyes. Despite this conspicuous ipsilateral eye influence, no units were found in either the LTN or the DTN that were driven solely through the ipsilateral eye.(ABSTRACT TRUNCATED AT 400 WORDS)
在猫的辅助视觉系统(AOS)的外侧终核(LTN)和背侧终核(DTN)中,对96个单位的视觉反应进行了定量研究。LTN和DTN细胞的感受野相当大,平均直径约为60度。单个细胞的感受野,垂直方向最小可为30度、水平方向为15度,最大可达100×100度,始终包括中央凹区域。大的、移动的纹理刺激在这些细胞中引发最佳调制。对于以恒定速度移动的100×80度随机点图案,LTN和DTN中的几乎所有细胞都表现出高度的方向选择性。对方向反应曲线进行矢量分析,生成与单个细胞的主要兴奋性(E矢量)和抑制性(I矢量)反应的方向和大小成比例的两个量。LTN的方向矢量呈现出明显的双峰分布:单个LTN细胞的E矢量要么向上(49个中的25个)要么向下(49个中的23个)。I矢量也在与同一细胞的E矢量相反的方向上向上或向下指向。LTN和DTN单位中的E和I矢量相隔约180度。几乎无一例外,DTN细胞的E矢量指向水平内侧方向,而DTN的I矢量指向水平外侧方向。相对较宽范围的刺激速度(0.8 - 102.4度/秒)在单个LTN单位中引发最大兴奋。然而,大多数LTN细胞在0.8至12.8度/秒的速度下达到最大兴奋。在0.2至102.4度/秒的速度范围内引发最深抑制,在0.8和12.8度/秒处有两个主要峰值。在DTN细胞中观察到类似的速度敏感性范围:对于1.6至102.4度/秒的刺激速度获得最大兴奋,大多数DTN细胞在6.4至12.8度/秒之间表现出最大兴奋性反应。在DTN单位中也观察到广泛的抑制性速度调谐,大多数细胞在25.6度/秒时表现出最深的抑制性调制。大多数LTN和DTN单位通过与记录部位对侧的眼睛最有效地驱动。尽管如此,很大比例的LTN(78%)和DTN(93%)细胞可以通过双眼在一定程度上被驱动。尽管存在这种明显的同侧眼影响,但在LTN或DTN中均未发现仅由同侧眼驱动的单位。(摘要截短至400字)
