Child Study Center, Yale University, 230 South Frontage Rd, New Haven, CT 06520, United States.
Psychoneuroendocrinology. 2013 Apr;38(4):509-21. doi: 10.1016/j.psyneuen.2012.07.011. Epub 2012 Aug 19.
Prenatal stress has been widely demonstrated to have links with behavioral problems in clinical populations and animal models, however, few investigations have examined the immediate developmental events that are affected by prenatal stress. Here, we utilize GAD67GFP transgenic mice in which GABAergic progenitors express green fluorescent protein (GFP) to examine the impact of prenatal stress on the development of these precursors to inhibitory neurons. Pregnant female mice were exposed to restraint stress three times daily from embryonic day 12 (E12) onwards. Their offspring demonstrated changes in the distribution of GFP-positive (GFP+) GABAergic progenitors in the telencephalon as early as E13 and persisting until postnatal day 0. Changes in distribution reflected alterations in tangential migration and radial integration of GFP+ cells into the developing cortical plate. Fate mapping of GAD67GFP+ progenitors with bromodeoxyuridine injected at E13 demonstrated a significant increase of these cells at P0 in anterior white matter. An overall decrease in GAD67GFP+ progenitors at P0 in medial frontal cortex could not be attributed to a reduction in cell proliferation. Significant changes in dlx2, nkx2.1 and their downstream target erbb4, transcription factors which regulate interneuron migration, were found within the prenatally stressed developing forebrain, while no differences were seen in mash1, a determinant of interneuron fate, bdnf, a maturation factor for GABAergic cells or fgf2, an early growth/differentiation factor. These results demonstrate that early disruption in GABAergic progenitor migration caused by prenatal stress may be responsible for neuronal defects in disorders with GABAergic abnormalities like schizophrenia.
产前应激已被广泛证明与临床人群和动物模型中的行为问题有关,但很少有研究探讨受产前应激影响的即时发育事件。在这里,我们利用 GAD67GFP 转基因小鼠,其中 GABA 能祖细胞表达绿色荧光蛋白(GFP),来研究产前应激对这些抑制性神经元前体细胞发育的影响。从胚胎第 12 天(E12)开始,妊娠雌鼠每天接受 3 次束缚应激。它们的后代早在 E13 时就表现出 GFP 阳性(GFP+)GABA 能祖细胞在端脑中的分布变化,并持续到出生后第 0 天。分布的变化反映了 GFP+细胞在向发育中的皮质板进行切线迁移和径向整合过程中的改变。在 E13 时注射溴脱氧尿苷对 GAD67GFP+祖细胞进行命运图谱分析表明,这些细胞在前脑白质中的 P0 时显著增加。在中额皮质的 P0 时,GAD67GFP+祖细胞的总数减少不能归因于细胞增殖减少。在产前应激发育中的前脑中发现了 dlx2、nkx2.1 及其下游靶基因 erbb4 的显著变化,这些转录因子调节中间神经元的迁移,而在决定中间神经元命运的 mash1、GABA 能细胞成熟因子 bdnf 或早期生长/分化因子 fgf2 中没有发现差异。这些结果表明,产前应激引起的 GABA 能祖细胞迁移早期中断可能是 GABA 能异常(如精神分裂症)导致神经元缺陷的原因。