Fine structure of growth cones in the upper dorsal horn of the adult primate spinal cord in the course of reactive synapto-neogenesis

Summary Following transganglionic degenerative atrophy of primary afferent terminals induced by a crush-injury of the sciatic nerve, a regenerative process takes places in the upper dorsal horn of the lumbar spinal cord in the primate Macacus rhesus. Axonal growth cones are characterized by cisterns of axoplasmic reticulum; filopodia emanating from growth cones are electron-optically translucent sheet-like expansions, often containing growth-cone vesicles. Axoplasmic reticulum appears also in preterminal portions of regenerating axons. Dendritic growth cones contain a fine, filamentous matrix; electron-dense membrane specializations can be seen in well-defined areas of their surfaces. Immature synapses are formed between filopodia of axonal growth cones and dendritic growth cones. Electron-microscopic structures of this unique CNS regeneration are similar to those seen in the course of embryonic development of the spinal cord.     

Down-regulation of human<Emphasis Type="Italic">NDR</Emphasis> gene in megakaryocytic differentiation of erythroleukemia K562 cells

To study the control of hematopoietic cell differentiation, a human negative differentiation regulator (NDR) gene was identified by the comparative analysis of differentially expressed genes in hemato-lymphoid tissues.NDR is expressed preferentially in the adult bone marrow, fetal liver and testis. Immunocytochemistry with anti-NDR antiserum showed the presence of NDR in human erythroleukemia K562 cell line and CD34⁺ cells sorted from the umbilical cord blood. When fused to the green fluorescent protein (GFP), NDR was directed to the nucleus of mouse 3T3 and K562 cells. Fusion protein with a deletion from residues 7 to 87 was detected in the cytoplasm. NDR appeared not to affect the proliferation of K562 cells when overly expressed. However, its expression was down-regulated during megakaryocytic differentiation of K562 cells induced by 12-O-tetradecanoylphorbol-13-acetate (TPA). Down-regulation of NDR correlated well with up-regulation of megakaryocytic markers, CD41 and CD61. Overexpression of the nuclear NDR-GFP in K562 cells inhibited the expression of CD41 and CD61 in megakaryocytic differentiation. Treatment of K562 cells with GF-109203X (GFX), an antagonist of the protein kinase C (PKC), blocked NDR down-regulation, up-regulated expression of CD41/CD61 and TPA-induced megakaryocytic differentiation. These results suggest a novel function of nuclear NDR protein in regulating hematopoietic cell development.     

Protein deiminases: new players in the developmentally regulated loss of neural regenerative ability

Spinal cord regenerative ability is lost with development, but the mechanisms underlying this loss are still poorly understood. In chick embryos, effective regeneration does not occur after E13, when spinal cord injury induces extensive apoptotic response and tissue damage. As initial experiments showed that treatment with a calcium chelator after spinal cord injury reduced apoptosis and cavitation, we hypothesized that developmentally regulated mediators of calcium-dependent processes in secondary injury response may contribute to loss of regenerative ability. To this purpose we screened for such changes in chick spinal cords at stages of development permissive (E11) and non-permissive (E15) for regeneration. Among the developmentally regulated calcium-dependent proteins identified was PAD3, a member of the peptidylarginine deiminase (PAD) enzyme family that converts protein arginine residues to citrulline, a process known as deimination or citrullination. This post-translational modification has not been previously associated with response to injury. Following injury, PAD3 up-regulation was greater in spinal cords injured at E15 than at E11. Consistent with these differences in gene expression, deimination was more extensive at the non-regenerating stage, E15, both in the gray and white matter. As deimination paralleled the extent of apoptosis, we investigated the effect of blocking PAD activity on cell death and deiminated-histone 3, one of the PAD targets we identified by mass-spectrometry analysis of spinal cord deiminated proteins. Treatment with the PAD inhibitor, Cl-amidine, reduced the abundance of deiminated-histone 3, consistent with inhibition of PAD activity, and significantly reduced apoptosis and tissue loss following injury at E15. Altogether, our findings identify PADs and deimination as developmentally regulated modulators of secondary injury response, and suggest that PADs might be valuable therapeutic targets for spinal cord injury.     

大鼠颈段脊髓灰质板层及其细胞构筑

取12只SD(Sprague-Dawley)大鼠颈段脊髓横断面冰冻切片,用焦油紫和Pal-Weigert染色法染色,光镜观察SD大鼠颈段脊髓的组织结构,对SD大鼠脊髓灰质板层的细胞构筑进行研究。结果显示,Ⅰ层边界呈长弧形,Ⅰ、Ⅱ、Ⅲ、Ⅳ层呈层叠状排列,细胞多为椭圆形。Ⅴ、Ⅵ层均可分为内侧部和外侧部,外侧部分布大型细胞,Ⅴ层内侧部以中型椭圆形、三角形细胞为主,Ⅵ层内侧部以中型梭形细胞为主。Ⅶ层位于中间带,C5-C7Ⅶ层向前角延伸和Ⅷ层一起占据前角大部,Ⅶ及Ⅷ层的中型和大型细胞呈集中分布。Ⅷ层在C1-C4及C8占前角大部,在C5-C7位于前角内侧部。Ⅸ层主要由含大型运动神经元的核团组成。Ⅹ层由中型梭形细胞和小型星状细胞组成。对比观察发现,SD大鼠脊髓颈段板层类似于猫的Rexed分层,但灰质轮廓、板层出现节段、板层形态及其变化等方面均有所不同。     

Isolation of progenitor cells from cord blood using adhesion matrices

The aim of this study was to develop optimal conditions for selective adhesion and isolation of mesenchymal progenitor cells (PCs) from cord blood and to determine their potential for osteogenic differentiation. Mononuclear cells (MNCs) were isolated by Ficoll-Paque gradient and plated onto 48-well culture plates precoated with: human or bovine collagen type I, human collagen type IV, fibronectin or matrigel. Cultures were incubated in αMEM containing fetal calf serum. Viability of the adherent cells was determined by alamarBlue® assay after 2, 3, and 4 weeks. After 4 weeks in culture, cells were typsinized and replated. Primary cultures were analyzed by histochemistry and third passage cells by FACS. Isolated fibroblast-like cells were cultured in the presence of osteogenic factors and differentiation determined by Alizarin Red S staining, RT-PCR and electron dispersive spectroscopy (EDS). MNCs adhered to all types of matrices with the greatest adhesion rates on fibronectin. These cells were CD45⁺, CD105⁺, CD14⁺, CD49a⁺, CD49f⁺, CD44⁺ and CD34⁻. The highest incidence of PCs was observed on fibronectin and polystyrene. Passages were CD45⁻, CD14⁻, CD34⁻ and weakly CD105⁺. Primary cultures expressed endothelial/macrophage RNA markers whether cultured on fibronectin or polystyrene and these markers decreased upon passage. The best osteogenic differentiation was observed in MPCs cultured in osteogenic medium containing Vit D₃ and FGF9. These cells expressed the bone-related mRNA, collagen type I, core binding factor I (Cbfa I), osteocalcin and osteopontin. EDS of deposits produced by these cells demonstrated a calcium/phosphate ratio parallel to hydroxyapatite. It was concluded that fibronectin increased adhesion rates and isolation potential of cord blood mesenchymal progenitor cells.     

Radial astrocytes and ependymocytes in the spinal cord of the adult toad (Bufo bufo L.)

Summary Immunohistochemical and ultrastructural techniques have been used to demonstrate glial fibrillary acidic protein (GFAP) immuno-positive cells in the adult toad spinal cord. Two types of GFAP-immunoreactive cells were observed: ependymocytes and radial astrocytes. GFAP-positive ependymocytes were scarce and contained the immunoreactive product in their processes. They showed intermediate filaments in the basal pole and in their processes when studied with the electron microscope. These immuno-positive ependymocytes represent the tanycytic form of ependymal cells because their processes ended at the subpial zone. The radial astrocytes showed a more intensive immunoreactive product in somata and processes when they were located far away from the ependymal layer. Cell bodies and processes were also associated with blood vessels, but most of the processes ended at the subpial zone forming a continuous subpial glia limitans. The GFAP-positive processes, which form this subpial glia limitans in the toad spinal cord, belong to both tanycytic ependymocytes and radial astrocytes, whose somata are located in the grey matter. These findings lead us to suggest that both types of GFAP-immunopositive cells might be the functional equivalents of mammalian astrocytes.     

代谢型谷氨酸受体五种亚型在猫脊髓内的分布—免疫组织化学方法研究

为研究代谢型谷氨酸受体各亚型在猫脊髓内的定位分布特征,本实验采用免疫组织化学方法调查了代谢型谷氨酸受体五种亚型（ｍＧｌｕＲ１,ｍＧｌｕＲ２,ｍＧｌｕＲ３,ｍＧｌｕｒ５及ｍＧｌｕＲ７）在猫脊髓（颈２、颈６、胸５、腰６、骶１－２）内的分布状况。结果如下：（１）在背角深层（Ⅲ－Ⅳ层）和腹角内分布有大量中小型（＜３０μｍ）ｍＧｌｕＲ１样免疫反应阳性神经元,背角浅层（Ⅰ、Ⅱ层）为阴性;（２）ｍＧｌｕＲ２／３样免疫反应阳性产物仅见于背角Ⅱ层内侧部,其它部位为阴性;（３）致密的ｍＧｌｕＲ５样免疫反应阳性产物主要分布于猫脊髓背角Ⅱ层的神经毯内,背角Ⅰ层及深层呈中等密度染色;（４）致密的ｍＧｌｕＲ７样免疫反应阳性产物分布于背角Ⅱ层的神经毯内,背角Ⅰ层及深层（Ⅲ－Ⅳ层）呈中等密度染色。此外,腹角运动神经元和骶髓副交感核内的神经元亦呈现ｍＧｌｕＲ７样免疫反应阳性。单侧切断背根,发现术侧背角浅层内ｍＧｌｕＲ７样免疫反应阳性产物密度略有降低,而ｍＧｌｕＲ５样免疫反应阳性产物密度与对侧基本相同。本研究结果显示代谢型谷氨酸受体五种亚型在所调查的猫脊髓各节段内（颈２、颈６、胸５、腰６、骶１－２）的分布存在差异,提示它们在介导谷氨酸传递的信