Craig A D
Division of Neurobiology, Barrow Neurological Institute, Phoenix, Arizona 85013.
J Comp Neurol. 1991 Nov 8;313(2):377-93. doi: 10.1002/cne.903130212.
The location of the ascending axons of spinal lamina I cells was studied in cats that received injections of Phaseolus vulgaris leucoagglutinin (PHA-L) in the superficial dorsal horn of the cervical or lumbosacral enlargement. Lamina I axons that could be ascribed to the spinothalamic tract (STT) were of particular interest. The cases were divided into three sets: in seven optimal cases the injections were restricted to lamina I; in ten nominal cases the injections involved laminae I-II or laminae I-III and occasionally lamina IV; and in eight mixed cases laminae I-V were injected. Since ipsilateral propriospinal and bilateral supraspinal axons originate from laminae I and V, but only ipsilateral propriospinal axons from laminae II-IV, this categorization facilitated a comparative analysis. Ascending axons labeled immunohistochemically with avidin/Texas Red were observed in oblique transverse sections from the C1, C3/4, T6, T12, and L3/4 levels. Incidental axonal labeling occurred in the ipsilateral dorsal columns because of passing primary afferent fiber uptake and, in nominal and mixed cases with involvement of laminae III-IV, in the superficial dorsolateral funiculus at the location of the spinocervical tract. Ipsilateral ascending lamina I axons in optimal cases were located in Lissauer's tract and in the white matter adjacent to the dorsal horn. Since these appeared to terminate in lamina I, and few remained at C1, they were ascribed to propriospinal projections. Contralateral ascending lamina I axons in optimal and nominal cases were distributed throughout the dorsal and ventral portions of the lateral funiculus (LF), but, despite considerable variability between animals in their location and dispersion, they were consistently concentrated in the middle of the LF (i.e., at the level of the central canal). This concentration was observed in a slightly more ventral location at C1, and a similar but weaker concentration of lamina I axons was located slightly more dorsally in C1 on the ipsilateral side. These supraspinal lamina I projections were ascribed to the spinomesencephalic tract (SMT) and to the STT. In mixed cases, additional ascending axons ascribed to lamina V cells were labeled in the ventrolateral and ventral funiculi. Many labeled axons were found in this region following a large injection of biocytin into lumbosacral laminae V-VIII in a supplementary case. These results thus together support previous descriptions of a dorsoventral distribution of STT axons according to laminar origin, but they contradict recent reports that lamina I axons ascend in the dorsolateral funiculus.(ABSTRACT TRUNCATED AT 400 WORDS)
在猫的颈膨大或腰骶膨大的浅表背角注射菜豆白细胞凝集素(PHA-L)后,研究了脊髓I层细胞升支轴突的位置。特别令人感兴趣的是可归因于脊髓丘脑束(STT)的I层轴突。这些病例分为三组:在7例最佳病例中,注射仅限于I层;在10例标称病例中,注射涉及I-II层或I-III层,偶尔涉及IV层;在8例混合病例中,注射了I-V层。由于同侧脊髓固有束和双侧脊髓上轴突起源于I层和V层,但只有同侧脊髓固有束轴突起源于II-IV层,这种分类便于进行比较分析。在C1、C3/4、T6、T12和L3/4水平的斜横切面上观察到用抗生物素蛋白/德克萨斯红免疫组织化学标记的升支轴突。由于初级传入纤维的摄取,同侧背柱出现偶然的轴突标记,在标称和混合病例中,当III-IV层受累时,在脊髓颈束所在位置的浅表背外侧索也出现轴突标记。在最佳病例中,同侧I层升支轴突位于Lissauer束和背角相邻的白质中。由于这些轴突似乎终止于I层,且在C1水平很少保留,因此它们被归因于脊髓固有束投射。在最佳和标称病例中,对侧I层升支轴突分布在外侧索(LF)的背侧和腹侧部分,但是,尽管不同动物之间其位置和分散程度存在很大差异,但它们始终集中在外侧索的中部(即中央管水平)。在C1水平,这种集中在稍腹侧的位置观察到,在同侧C1水平,类似但较弱的I层轴突集中位于稍背侧。这些脊髓上I层投射被归因于脊髓中脑束(SMT)和脊髓丘脑束。在混合病例中,在腹外侧索和腹索中还标记了归因于V层细胞的额外升支轴突。在一个补充病例中,将生物胞素大量注射到腰骶部V-VIII层后,在该区域发现了许多标记轴突。因此,这些结果共同支持了先前关于脊髓丘脑束轴突根据分层起源的背腹分布的描述,但与最近关于I层轴突在背外侧索中上升的报道相矛盾。(摘要截断于400字)
