Interdisciplinary Graduate Program in Neuroscience, University of Iowa, Iowa City, IA 52240, USA.
Neuroscience. 2012 Oct 25;223:285-95. doi: 10.1016/j.neuroscience.2012.08.009. Epub 2012 Aug 13.
In mice, microRNAs (miRNAs) are required for embryonic viability, and previous reports implicate miRNA participation in brain cortical neurogenesis. Here, we provide a more comprehensive analysis of miRNA involvement in cortical brain development. To accomplish this we used mice in which Dicer, the RNase III enzyme necessary for canonical miRNA biogenesis, is depleted from Nestin-expressing progenitors and progeny cells. We systematically assessed how Dicer depletion impacts proliferation, cell death, migration and differentiation in the developing brain. Using markers for proliferation and in vivo labeling with thymidine analogs, we found reduced numbers of proliferating cells, and altered cell cycle kinetics from embryonic day 15.5 (E15.5). Progenitor cells were distributed aberrantly throughout the cortex rather than restricted to the ventricular and subventricular zones. Activated Caspase3 was elevated, reflecting increased cortical cell death as early as E15.5. Cajal-Retzius-positive cells were more numerous at E15.5 and were dysmorphic relative to control cortices. Consistent with this, Reelin levels were enhanced. Doublecortin and Rnd2 were also increased and showed altered distribution, supporting a strong regulatory role for miRNAs in both early and late neuronal migration. In addition, GFAP staining at E15.5 was more intense and disorganized throughout the cortex with Dicer depletion. These results significantly extend earlier works, and emphasize the impact of miRNAs on neural progenitor cell proliferation, apoptosis, migration, and differentiation in the developing mammalian brain.
在小鼠中,microRNAs(miRNAs)对于胚胎的存活是必需的,并且先前的报告表明 miRNA 参与了大脑皮质神经发生。在这里,我们提供了对 miRNA 参与皮质脑发育的更全面分析。为了实现这一目标,我们使用了 Nestin 表达的祖细胞和祖细胞中 Dicer(经典 miRNA 生物发生所必需的 RNase III 酶)耗竭的小鼠。我们系统地评估了 Dicer 耗竭如何影响发育中的大脑中的增殖、细胞死亡、迁移和分化。使用增殖标志物和胸腺嘧啶类似物的体内标记,我们发现增殖细胞的数量减少,并且从胚胎第 15.5 天(E15.5)开始细胞周期动力学发生改变。祖细胞异常分布于整个皮质,而不是局限于脑室和室下区。激活的 Caspase3 升高,反映出 E15.5 时皮质细胞死亡增加。Cajal-Retzius 阳性细胞在 E15.5 时更多,相对于对照皮质表现出畸形。与此一致的是,Reelin 水平增强。Doublecortin 和 Rnd2 也增加,并显示出改变的分布,表明 miRNAs 在早期和晚期神经元迁移中都具有很强的调节作用。此外,E15.5 时 Dicer 耗竭时 GFAP 染色更强烈且在整个皮质中紊乱。这些结果显著扩展了早期的工作,并强调了 miRNAs 对发育中的哺乳动物大脑中神经祖细胞增殖、凋亡、迁移和分化的影响。
