Yang H Y, Lieska N, Shao D, Kriho V, Pappas G D
Department of Anatomy and Cell Biology, University of Illinois College of Medicine, Chicago 60612.
J Neurocytol. 1993 Jul;22(7):558-71. doi: 10.1007/BF01189043.
The differentiation of glia in the central nervous system is not well understood. A major problem is the absence of an objective identification system for involved cells, particularly the early-appearing radial glia. The intermediate filament structural proteins vimentin and glial fibrillary acidic protein have been used to define the early and late stages, respectively, of astrocyte development. However, because of the non-specificity of vimentin and the temporal overlap in expression patterns of both proteins, it is difficult to refine our view of the process. This is especially true of the early differentiation events involving radial glia. Using the developmentally-expressed intermediate filament-associated protein IFAP-70/280 kD in conjunction with vimentin and glial fibrillary acidic protein markers, a comprehensive investigation of this problem was undertaken using immunofluorescence microscopy of developing rat spinal cord (E13-P28 plus adult). The phenotypes of the cells were defined on the basis of their immunologic composition with respect to IFAP-70/280 kD (I), vimentin (V) and GFAP (G). A definitive immunotype for radial glia was established, viz, I+/V+/G-; thus reliance upon strictly morphological criteria for this early developmental cell was no longer necessary. Based upon the immunotypes of the cells involved, four major stages of macroglial development were delineated: (1) radial glia (I+/V+/G-); (2) macroglial progenitors (I+/V+/G+); (3) immature macroglia (I-/V+/G+); and (4) mature astrocytes (I-/V+/G+ primarily in white matter and I-/V-/G+, the predominant type in gray matter). It is of interest to note that the cells of the floor plate were distinguished from radial glia by their lack of IFAP-70/280 kD immunoreactivity. Introduction of the IFAP-70/280 kD marker has therefore provided a more refined interpretation of the various differentiation stages from radial glia to mature astrocytes.
中枢神经系统中神经胶质细胞的分化尚未得到充分理解。一个主要问题是缺乏针对相关细胞的客观识别系统,尤其是早期出现的放射状胶质细胞。中间丝结构蛋白波形蛋白和胶质纤维酸性蛋白已分别用于定义星形胶质细胞发育的早期和晚期阶段。然而,由于波形蛋白的非特异性以及这两种蛋白质表达模式的时间重叠,很难完善我们对这一过程的认识。对于涉及放射状胶质细胞的早期分化事件尤其如此。利用发育过程中表达的中间丝相关蛋白IFAP - 70/280 kD,结合波形蛋白和胶质纤维酸性蛋白标记物,通过对发育中的大鼠脊髓(胚胎第13天至出生后第28天以及成年期)进行免疫荧光显微镜检查,对这个问题进行了全面研究。根据细胞相对于IFAP - 70/280 kD(I)、波形蛋白(V)和胶质纤维酸性蛋白(G)的免疫组成来定义细胞的表型。建立了放射状胶质细胞的明确免疫类型,即I+/V+/G - ;因此不再需要依赖这种早期发育细胞的严格形态学标准。基于所涉及细胞的免疫类型,划分了大胶质细胞发育的四个主要阶段:(1)放射状胶质细胞(I+/V+/G - );(2)大胶质细胞祖细胞(I+/V+/G+);(3)未成熟大胶质细胞(I - /V+/G+);以及(4)成熟星形胶质细胞(主要在白质中为I - /V+/G+,在灰质中占主导的类型为I - /V - /G+)。值得注意的是,底板细胞通过缺乏IFAP - 70/280 kD免疫反应性与放射状胶质细胞区分开来。因此,IFAP - 70/280 kD标记物的引入为从放射状胶质细胞到成熟星形胶质细胞的各种分化阶段提供了更精确的解释。
