Department of Obstetrics and Gynecology, Tohoku University Graduate School of Medicine, 1-1 Seiryomachi, Aoba-ku, Sendai, Japan.
Fetal Diagn Ther. 2010;28(2):79-86. doi: 10.1159/000316102. Epub 2010 Jul 31.
BACKGROUND/OBJECTIVE: To investigate the neurodevelopmental response in postnatal mice secondary to antenatal steroid treatment in association with maternal protein restriction.
C57BL/6N pregnant mice (n = 24; 4 per treatment group) were administered control (C) or protein-restricted (PR) diets and subjected to daily subcutaneous injection stress during late gestation (E10-E17) with either 100 microl/kg of dexamethasone sodium phosphate in normosaline (C-D/S, PR-D/S) or normosaline alone (C-S, PR-S). Non-treatment groups were also included (C, PR). Brain samples of pups were collected on postnatal day 7 and analyzed by immunohistochemistry and qRT-PCR.
Neonatal weights in the treatment groups were smaller than their counterparts in the C group, but there were no significant differences in brain size. Immunohistochemical evaluation of neuroglial cells revealed a pronounced effect of protein restriction on oligodendrocytes and oligodendrocyte precursor cells with distinct fetal responses to stress and dexamethasone. Further evaluation using quantitative RNA analysis showed significant activation of Galr1, Galr2, Igfbp-1, Igfbp-3, Igfbp-6, and Fgf2 by 1- to 2.5-fold in the PR-D/S group and by much higher increments, 1- to 10.5-fold, in the PR-S group.
This preliminary investigation revealed the possible role of dexamethasone in further increasing vulnerability to cell damage in injury-prone neuroglial cells. The distribution of key glial markers and the overexpression of several neurotrophic factors depicted ongoing cellular adaptation.
背景/目的:研究与母体蛋白质限制相关的产前类固醇治疗后出生后小鼠的神经发育反应。
C57BL/6N 孕鼠(n = 24;每组 4 只)给予对照(C)或蛋白质限制(PR)饮食,并在妊娠晚期(E10-E17)接受每日皮下注射应激,用 100 微升/千克磷酸地塞米松钠在生理盐水(C-D/S,PR-D/S)或生理盐水(C-S,PR-S)中。还包括非治疗组(C,PR)。在产后第 7 天收集幼仔的脑组织样本,并通过免疫组织化学和 qRT-PCR 进行分析。
治疗组的新生体重小于 C 组,但大脑大小无显著差异。神经胶质细胞的免疫组织化学评价表明,蛋白质限制对少突胶质细胞和少突胶质细胞前体细胞有明显的影响,应激和地塞米松对其有明显的胎儿反应。使用定量 RNA 分析进一步评估显示,PR-D/S 组 Galr1、Galr2、Igfbp-1、Igfbp-3、Igfbp-6 和 Fgf2 的表达显著激活 1-2.5 倍,PR-S 组的表达显著激活 1-10.5 倍。
这项初步研究揭示了地塞米松在增加易受伤的神经胶质细胞对细胞损伤的易感性方面可能发挥的作用。关键神经胶质标记物的分布和几种神经营养因子的过度表达表明了持续的细胞适应。
