Bullier J, Kennedy H, Salinger W
J Comp Neurol. 1984 Sep 20;228(3):309-28. doi: 10.1002/cne.902280303.
We have examined the pattern of axon bifurcation in the thalamic and claustral afferents to visual areas 17, 18, and 19 in the adult cat neocortex. This was achieved by injecting two fluorescent retrograde tracers, fast blue and diamidino yellow, in retinotopically corresponding regions of two of these three cortical areas. The pattern of single- and double-labelled cells was then examined in subcortical structures and the presence of double-labelled cells was interpreted as indicating that these neurons send bifurcating axons to the two injected areas. The size of the cortical region surrounding the injection site where each fluorescent dye is taken up was studied by making side-by-side injections of the two tracers in area 17 and examining the size and the separation of the two groups of labelled cells in the lateral geniculate nucleus (LGN). From these experiments we conclude that the uptake region is smaller than 1 mm and is included in the region of dense coloring surrounding the track of the injection needle. Injections were made in cortical regions which were in retinotopic correspondence as determined by electrophysiological recording. The double-labelled neurons were always found in the zone of overlap of the two populations of colored cells and no double-labelled neurons were found when there was no overlap between these populations. This indicates that the bifurcating axons send branches to strictly retinotopically corresponding regions in the two cortical areas. After injections in areas 18 and 19, numerous double-labelled cells were observed in laminae C of the LGN, in the medial interlaminar nucleus (MIN), the posterior nucleus (PN), and the lateral part of the lateral posterior nucleus (LP), in the retinorecipient zone of the pulvinar (RRZ-Pul), the intralaminar nuclei (ILN), and the claustrum. The proportions of double-labelled cells with respect to the total number of labelled neurons were computed in the region of overlap of the two populations of labelled cells. These percentages ranged between 5 and 20% and were highest in the C laminae of the LGN, the intralaminar nuclei, and the claustrum. After injection of areas 17 and 18, similar proportions of double-labelled cells were observed in the same structures, as well as in the A laminae of the LGN. Here again, the intralaminar nuclei and the claustrum tended to have slightly higher (20-30%) proportions of double-labelled cells. When the nonadjacent areas 17 and 19 were injected, doubled-labelled neurons were also observed in all these structures, except the A laminae of the LGN.(ABSTRACT TRUNCATED AT 400 WORDS)
我们研究了成年猫新皮质中丘脑和屏状核传入视觉17、18和19区的轴突分支模式。通过在这三个皮质区域中的两个区域的视网膜拓扑对应区域注射两种荧光逆行示踪剂——快蓝和二脒基黄来实现这一目的。然后在皮质下结构中检查单标记和双标记细胞的模式,双标记细胞的存在被解释为表明这些神经元向两个注射区域发送分支轴突。通过在17区并排注射两种示踪剂并检查外侧膝状体核(LGN)中两组标记细胞的大小和间距,研究了每个荧光染料摄取部位周围皮质区域的大小。从这些实验中我们得出结论,摄取区域小于1毫米,并且包含在注射针轨迹周围的深色区域内。注射是在通过电生理记录确定的视网膜拓扑对应皮质区域进行的。双标记神经元总是在两个有色细胞群体的重叠区域中发现,当这些群体之间没有重叠时则未发现双标记神经元。这表明分支轴突向两个皮质区域中严格的视网膜拓扑对应区域发送分支。在18区和19区注射后,在LGN的C层、内侧层间核(MIN)、后核(PN)、外侧后核(LP)的外侧部分、丘脑枕的视网膜接受区(RRZ-Pul)、层内核(ILN)和屏状核中观察到大量双标记细胞。在两个标记细胞群体的重叠区域计算双标记细胞相对于标记神经元总数的比例。这些百分比在5%到20%之间,在LGN的C层、层内核和屏状核中最高。在17区和18区注射后,在相同结构以及LGN的A层中观察到相似比例的双标记细胞。同样,层内核和屏状核中双标记细胞的比例往往略高(20% - 30%)。当注射不相邻的17区和19区时,除了LGN的A层外,在所有这些结构中也观察到双标记神经元。(摘要截断于400字)
