Ádám Ágota, Kemecsei Róbert, Company Verónica, Murcia-Ramón Raquel, Juarez Iris, Gerecsei László I, Zachar Gergely, Echevarría Diego, Puelles Eduardo, Martínez Salvador, Csillag András
Department of Anatomy, Histology, and Embryology, Faculty of Medicine, Semmelweis University, Budapest, Hungary.
Institute of Neuroscience (UMH-CSIC), University of Miguel Hernández, Alicante, Spain.
Front Neuroanat. 2020 Jun 5;14:29. doi: 10.3389/fnana.2020.00029. eCollection 2020.
Gestational exposure to valproic acid (VPA) is known to cause behavioral deficits of sociability, matching similar alterations in human autism spectrum disorder (ASD). Available data are scarce on the neuromorphological changes in VPA-exposed animals. Here, we focused on alterations of the dopaminergic system, which is implicated in motivation and reward, with relevance to social cohesion. Whole brains from 7-day-old mice born to mothers given a single injection of VPA (400 mg/kg b.wt.) on E13.5 were immunostained against tyrosine hydroxylase (TH). They were scanned using the iDISCO method with a laser light-sheet microscope, and the reconstructed images were analyzed in 3D for quantitative morphometry. A marked reduction of mesotelencephalic (MT) axonal fascicles together with a widening of the MT tract were observed in VPA treated mice, while other major brain tracts appeared anatomically intact. We also found a reduction in the abundance of dopaminergic ventral tegmental (VTA) neurons, accompanied by diminished tissue level of DA in ventrobasal telencephalic regions (including the nucleus accumbens (NAc), olfactory tubercle, BST, substantia innominata). Such a reduction of DA was not observed in the non-limbic caudate-putamen. Conversely, the abundance of TH+ cells in the substantia nigra (SN) was increased, presumably due to a compensatory mechanism or to an altered distribution of TH+ neurons occupying the SN and the VTA. The findings suggest that defasciculation of the MT tract and neuronal loss in VTA, followed by diminished dopaminergic input to the ventrobasal telencephalon at a critical time point of embryonic development (E13-E14) may hinder the patterning of certain brain centers underlying decision making and sociability.
已知孕期暴露于丙戊酸(VPA)会导致社交行为缺陷,类似于人类自闭症谱系障碍(ASD)中的类似改变。关于VPA暴露动物神经形态学变化的数据很少。在这里,我们关注多巴胺能系统的改变,该系统与动机和奖励有关,与社会凝聚力相关。对在胚胎第13.5天接受单次注射VPA(400mg/kg体重)的母亲所生的7日龄小鼠的全脑进行酪氨酸羟化酶(TH)免疫染色。使用激光片层显微镜通过iDISCO方法对其进行扫描,并对重建图像进行三维分析以进行定量形态测量。在VPA处理的小鼠中观察到中脑边缘(MT)轴突束明显减少,同时MT束变宽,而其他主要脑束在解剖学上似乎完整。我们还发现多巴胺能腹侧被盖区(VTA)神经元数量减少,同时腹侧基底前脑区域(包括伏隔核(NAc)、嗅结节、终纹床核、无名质)的多巴胺组织水平降低。在非边缘尾状核-壳核中未观察到这种多巴胺减少。相反,黑质(SN)中TH+细胞的数量增加,这可能是由于一种补偿机制或由于占据SN和VTA的TH+神经元分布改变所致。研究结果表明,在胚胎发育的关键时间点(E13-E14),MT束的脱束和VTA中的神经元丢失,随后腹侧基底前脑的多巴胺能输入减少,可能会阻碍某些参与决策和社交能力的脑中心的形成。