Ferrer I, Serrano T, Rivera R, Olivé M, Zújar M J, Graus F
Unidad de Neuropatología, Hospital Príncipes de España, Universidad de Barcelona, Hospitalet de Llobregat.
Acta Neuropathol. 1993;86(5):491-500. doi: 10.1007/BF00228585.
Sprague-Dawley rats received a single dose of 2 Gy X-rays at the age of 1 or 3 days and were killed at different intervals. Dying cells with the morphological characteristics of apoptosis appeared in the external and internal granular layers (EGL and IGL) and white matter (WM) of the cerebellum, mainly 3-6 h after irradiation, and decreased thereafter to reach normal values between 48 h and 5 days later. This process was curbed by the injection of cycloheximide at a dose of 1 microgram/g body weight. In addition, the number of mitoses in EGL rapidly decreased after irradiation and did not reach normal values until a few days later. Proliferating cell nuclear antigen (PCNA)-immunoreactive cells, which were chiefly found in EGL but also in IGL and WM, dramatically decreased in number from 3 to 48 h after irradiation. PCNA-immunoreactive cells reappeared and reached age-matched values in the following days. Hu (considered as an early neuronal marker) and vimentin immunocytochemistry disclosed that Hu-nonreactive cells in the upper level of EGL, Hu-immunoreactive cells in the inner level of EGL, Bergmann glia and many astrocytes in WM, as well as many non-typified cells in WM, were radiosensitive populations, whereas Purkinje cells were not. The present results indicate that irradiation at P1 or P3 blocks mitosis in EGL and kills sensitive cells mainly in the late G1 and S phases of the cell cycle, probably by apoptosis through a protein synthesis-mediated process. Radiosensitive cells are germinal cells and neuroblasts in EGL, Bergmann glia, astrocytes in WM, and non-typified cells, probably glial cell precursors, in WM. Surviving cells in EGL and PCNA-immunoreactive cells in other cortical layers and white matter reconstitute the cerebellum following a single dose of X-rays.
斯普拉格-道利大鼠在1日龄或3日龄时接受单次2 Gy的X射线照射,并在不同时间间隔处死。具有凋亡形态特征的死亡细胞出现在小脑的外颗粒层和内颗粒层(EGL和IGL)以及白质(WM)中,主要在照射后3 - 6小时出现,此后减少,在48小时至5天后恢复到正常水平。以1微克/克体重的剂量注射环己酰亚胺可抑制这一过程。此外,照射后EGL中的有丝分裂数量迅速减少,直到几天后才恢复到正常水平。增殖细胞核抗原(PCNA)免疫反应性细胞主要存在于EGL中,但也存在于IGL和WM中,照射后3至48小时其数量显著减少。PCNA免疫反应性细胞在接下来的几天中重新出现并达到与年龄匹配的值。Hu(被视为早期神经元标记物)和波形蛋白免疫细胞化学显示,EGL上层的Hu非反应性细胞、EGL内层的Hu免疫反应性细胞、WM中的伯格曼胶质细胞和许多星形胶质细胞,以及WM中的许多非典型细胞是放射敏感群体,而浦肯野细胞则不是。目前的结果表明,在P1或P3时进行照射会阻断EGL中的有丝分裂,并主要在细胞周期的晚期G1和S期杀死敏感细胞,可能是通过蛋白质合成介导的凋亡过程。放射敏感细胞是EGL中的生发细胞和成神经细胞、伯格曼胶质细胞、WM中的星形胶质细胞以及WM中的非典型细胞,可能是胶质细胞前体。单次X射线照射后,EGL中的存活细胞以及其他皮质层和白质中的PCNA免疫反应性细胞会重新构建小脑。
