Save Sight Institute C09, University of Sydney, NSW 2006, Australia.
J Physiol. 2012 Aug 15;590(16):4061-77. doi: 10.1113/jphysiol.2012.230409. Epub 2012 Jun 11.
The main subcortical visual targets of retinal output neurones (ganglion cells) are the parvocellular and magnocellular layers of the dorsal lateral geniculate nucleus (LGN) in the thalamus. In addition, a small and heterogeneous collection of ganglion cell axons projects to the koniocellular layers of the LGN, to the superior colliculus (SC), and to other subcortical targets. The functional (receptive field) properties and target specificity of these non-parvocellular, non-magnocellular populations remain poorly understood. It is known that one population of koniocellular layer cells in the LGN (blue-On cells) receives dominant functional input from short-wavelength sensitive (S or ‘blue') cones. Here we asked whether SC neurones also receive S cone inputs. We made extracellular recordings from single neurones (n = 38) in the SC of anaesthetised marmoset monkeys. Responses to drifting and flashed gratings providing defined levels of cone contrast were measured. The SC receptive fields we recorded were often binocular, showed ‘complex cell' like responses (On–Off responses), strong bandpass spatial frequency tuning, direction selectivity, and many showed strong and rapid habituation to repeatedly presented stimuli. We found no evidence for dominant S cone input to any SC neurone recorded. These data suggest that S cone signals may reach cortical pathways for colour vision exclusively through the koniocellular division of the lateral geniculate nucleus.
视网膜输出神经元(神经节细胞)的主要皮质下视觉靶标是丘脑背外侧膝状体核(LGN)的小细胞和大细胞层。此外,一小部分异质的神经节细胞轴突投射到 LGN 的 koniocellular 层、上丘(SC)和其他皮质下靶标。这些非小细胞、非大细胞群体的功能(感受野)特性和靶标特异性仍知之甚少。已知 LGN 中的 koniocellular 层细胞(蓝-ON 细胞)的一个群体(blue-On cells)从短波长敏感(S 或“蓝”)锥体接收主要的功能输入。在这里,我们询问 SC 神经元是否也接收 S 锥体输入。我们在麻醉的狨猴的 SC 中对单个神经元(n=38)进行了细胞外记录。测量了提供定义的锥体对比度的漂移和闪烁光栅的反应。我们记录的 SC 感受野通常是双眼的,表现出“复杂细胞”样反应(On-Off 反应)、强带通空间频率调谐、方向选择性,并且许多表现出对重复呈现的刺激的强烈和快速习惯化。我们没有发现任何证据表明任何记录的 SC 神经元存在主导的 S 锥体输入。这些数据表明,S 锥体信号可能仅通过外侧膝状体核的 koniocellular 分支到达用于颜色视觉的皮质通路。