Murphy P C, Duckett S G, Sillito A M
Department of Physiology, St. George's Hospital Medical School, Tooting, London SW17 0RE, United Kingdom. p.murphy2sghms.ac.uk
J Neurosci. 2000 Jan 15;20(2):845-53. doi: 10.1523/JNEUROSCI.20-02-00845.2000.
The feedback from area 18 of the cat visual cortex to the lateral geniculate nucleus has been investigated by labeling and reconstructing seventeen axons of known receptive field position and eye preference. The distribution of boutons from each axon was quantified with respect to the compartments of the geniculate complex, and the results were compared with an equivalent analysis of fourteen area 17 axons. Area 18 axons form large, sparse arborizations that extend up to 1.9 mm laterally (1170 +/- 85 microm; mean +/- SEM), with a core of relatively dense innervation spanning on average 600 +/- 70 microm (mean +/- SEM). Thus, they have the potential to influence the transmission of visual information from well beyond their own classical receptive fields. In this respect, they are surprisingly similar to the axons from area 17, despite the fact that the two cortical areas have very different retinotopy. However, there are important differences between the pathways. Area 18 axons project more heavily to the C layers and medial interlaminar nucleus. Whereas the input from both areas to the A layers is biased toward the layer appropriate to the eye preference of each axon, the area 18 input to magnocellular layer C is not. The distribution of area 18 boutons favors the bottom of their preferred A layer, and the area 17 boutons favor the top. These differences mirror those seen in the afferent pathways, suggesting that each cortical area preferentially targets the cells from which it receives input. Finally, their greater diameter suggests that area 18 axons provide the earliest feedback signal in the corticogeniculate loop.
通过标记和重建已知感受野位置和眼优势的17条轴突,对猫视觉皮层18区到外侧膝状体核的反馈进行了研究。针对膝状体复合体的各部分,对每条轴突的终扣分布进行了量化,并将结果与对14条17区轴突的等效分析进行了比较。18区的轴突形成大而稀疏的分支,横向延伸可达1.9毫米(1170±85微米;平均值±标准误),其相对密集支配的核心平均跨度为600±70微米(平均值±标准误)。因此,它们有可能影响视觉信息从远超其自身经典感受野的区域的传递。在这方面,它们与17区的轴突惊人地相似,尽管这两个皮层区域的视网膜拓扑结构非常不同。然而,这两条通路之间存在重要差异。18区的轴突更多地投射到C层和内侧层间核。虽然这两个区域向A层的输入都偏向于与每条轴突的眼优势相适应的层,但18区向大细胞层C的输入并非如此。18区终扣的分布有利于其偏好的A层底部,而17区的终扣则有利于顶部。这些差异反映了传入通路中的差异,表明每个皮层区域优先靶向其接收输入的细胞。最后,它们较大的直径表明18区的轴突在皮质-膝状体环路中提供了最早的反馈信号。