Mastronarde D N
J Neurophysiol. 1987 Feb;57(2):357-80. doi: 10.1152/jn.1987.57.2.357.
Cells in the cat's dorsal lateral geniculate nucleus (LGN) were studied by presentation of visual stimuli and also by simultaneous recording of their ganglion cell inputs in the retina. This paper describes receptive-field properties and a new system of classification for LGN X-cells that appear to receive essentially only one excitatory retinal input. These X-cells were of two distinct classes. The visual responses of one class of cell (XS, single) replicated the basic form of the responses of a retinal X-cell. The other class of cell (XL, lagged) had responses with two remarkable features: their firing lagged 40-80 ms behind that of XS-cells or ganglion cells at response onset, and they fired anomalously at times when XS-cells or ganglion cells would not be firing. Thus, for a flashing spot, XL-cells were inhibited from firing after stimulus onset, during the time when XS-cells or retinal X-cells had an initial transient peak in firing; XL-cells generally had an anomalous peak in firing after stimulus offset, after XS-cells or retinal X-cells had stopped firing. For a moving bar, XS-cells or retinal X-cells responded primarily while the bar was in the receptive-field center, whereas most of a typical XL-cell's response occurred after the bar had left the receptive-field center. The latencies of various features in the visual responses were analyzed. For several visual response latencies, the distribution was clearly bimodal, thus objectively demonstrating the existence of two cell classes. Using only the latencies from spot and bar responses, over 90% of these single-input cells could be reliably identified as belonging to one of the two classes. The remaining cells (7 of 128) were intermediate between the two classes in some but not all respects; because they had some properties in common, these cells were kept in a separate group (XPL, partially lagged). The axons of both XS- and XL-cells could be antidromically activated from visual cortex. Cortical latencies were typically 0.7-2.0 ms for XS-cells but much longer, typically 2.4-5.0 ms, for XL-cells. It is possible that XL-cells have not previously been recognized as a separate class because cells with such long latencies have been recorded infrequently in the past. Responses to central flashing spots were more transient than those of retinal X-cells for most XS-cells and more sustained for most XL-cells.(ABSTRACT TRUNCATED AT 400 WORDS)
通过呈现视觉刺激以及同时记录猫视网膜中神经节细胞对其的输入,对猫的背外侧膝状核(LGN)中的细胞进行了研究。本文描述了LGN中X细胞的感受野特性和一种新的分类系统,这些X细胞似乎基本上只接受一种兴奋性视网膜输入。这些X细胞分为两个不同的类别。一类细胞(XS,单峰型)的视觉反应复制了视网膜X细胞反应的基本形式。另一类细胞(XL,延迟型)的反应有两个显著特征:在反应开始时,它们的放电比XS细胞或神经节细胞滞后40 - 80毫秒,并且在XS细胞或神经节细胞不放电的时候它们会异常放电。因此,对于一个闪烁的光点,在刺激开始后,当XS细胞或视网膜X细胞有一个初始的瞬时放电峰值时,XL细胞被抑制放电;在刺激停止后,当XS细胞或视网膜X细胞停止放电后,XL细胞通常会有一个异常的放电峰值。对于一个移动的条形物,XS细胞或视网膜X细胞主要在条形物位于感受野中心时做出反应,而典型的XL细胞的大多数反应发生在条形物离开感受野中心之后。分析了视觉反应中各种特征的潜伏期。对于几种视觉反应潜伏期,分布明显呈双峰,从而客观地证明了两类细胞的存在。仅使用光点和条形物反应的潜伏期,超过90%的这些单输入细胞可以可靠地被识别为属于这两类中的一类。其余细胞(128个中的7个)在某些但不是所有方面介于两类之间;因为它们有一些共同的特性,这些细胞被归为一个单独的组(XPL,部分延迟型)。XS细胞和XL细胞的轴突都可以从视觉皮层进行逆向激活。XS细胞的皮层潜伏期通常为0.7 - 2.0毫秒,而XL细胞的则长得多,通常为2.4 - 5.0毫秒。有可能XL细胞以前没有被识别为一个单独的类别,因为过去很少记录到潜伏期这么长的细胞。对于大多数XS细胞,对中央闪烁光点的反应比视网膜X细胞的反应更短暂,而对于大多数XL细胞则更持久。(摘要截选至400字)
