Murphy P C, Sillito A M
Department of Visual Science, Institute of Ophthalmology, London, United Kingdom.
J Neurosci. 1996 Feb 1;16(3):1180-92. doi: 10.1523/JNEUROSCI.16-03-01180.1996.
Two approaches were adopted to study the pattern of connectivity between the cat visual cortex and lateral geniculate nucleus. Fourteen individual cortico-geniculate axons were labeled and reconstructed after intracellular or extracellular injection of biocytin into regions of known receptive-field position and ocular dominance preference, and the distribution of boutons from multi-axon clusters was mapped in three dimensions and compared with the locations of strategically placed geniculate recordings made in the same tissue. The results show that the feedback has an accurate retinotopic component but that individual axons are both more extensive and more selective than described previously. Area 17 feedback axons terminate primarily in layers A and A1, but the distribution of terminal boutons is strongly biased (3:1 ratio) toward the layer that matches their eye preference. Thus, those driven by the contralateral eye preferentially target layer A, and those driven by the ipsilateral eye target layer A1. Each axon also innervates the perigeniculate nucleus (PGN), but the pattern is otherwise variable, suggesting that there are different axonal classes. The terminal fields of individual axons are much larger than described previously, with a maximum spread of 500-1500 microns. Nevertheless, the projection from a given location in area 17 has a center of maximum terminal density 400-500 microns across, which is in retinotopic correspondence with the aggregate receptive field of the cortical cells of origin. The surrounding zone of relatively sparse boutons, however, must permit corticofugal cells to influence visual processing well beyond the regions over which their own responses summate. It follows that any geniculate cell receives corticofugal input covering an equally extensive area of visual space.
采用了两种方法来研究猫视觉皮层与外侧膝状体核之间的连接模式。在将生物胞素细胞内或细胞外注射到已知感受野位置和眼优势偏好区域后,对14条皮质 - 膝状体轴突进行标记和重建,并在三维空间中绘制多轴突簇的终扣分布,并与在同一组织中进行的战略性放置的膝状体记录位置进行比较。结果表明,反馈具有精确的视网膜拓扑成分,但单个轴突比先前描述的更广泛且更具选择性。17区的反馈轴突主要终止于A层和A1层,但终扣分布强烈偏向(3:1比例)与其眼偏好相匹配的层。因此,由对侧眼驱动的轴突优先靶向A层,由同侧眼驱动的轴突靶向A1层。每条轴突还支配膝状体周核(PGN),但其模式在其他方面是可变的,这表明存在不同的轴突类别。单个轴突的终末场比先前描述的要大得多,最大扩散范围为500 - 1500微米。然而,来自17区给定位置的投射具有一个最大终末密度中心,其跨度为400 - 500微米,这与起源皮质细胞的总体感受野在视网膜拓扑上相对应。然而,周围相对稀疏的终扣区域必须允许皮质离心细胞影响视觉处理,其范围远远超出其自身反应总和的区域。由此可见,任何膝状体细胞都接收到覆盖同样广泛视觉空间区域的皮质离心输入。