Université de Lorraine, INSERM, NGERE, F-54000, Nancy, France.
CALBINOTOX (EA7488), Faculté des Sciences et Techniques, Vandoeuvre lès Nancy, France.
Mol Neurobiol. 2019 Feb;56(2):892-906. doi: 10.1007/s12035-018-1128-3. Epub 2018 May 26.
Gestational methyl donor (especially B9 and B12 vitamins) deficiency is involved in birth defects and brain development retardation. The underlying molecular mechanisms that are dysregulated still remain poorly understood, in particular in the cerebellum. As evidenced from previous data, females are more affected than males. In this study, we therefore took advantage of a validated rat nutritional model and performed a microarray analysis on female progeny cerebellum, in order to identify which genes and molecular pathways were disrupted in response to methyl donor deficiency. We found that cerebellum development is altered in female pups, with a decrease of the granular cell layer thickness at postnatal day 21. Furthermore, we investigated the involvement of the Wnt signaling pathway, a major molecular pathway involved in neuronal development and later on in synaptic assembly and neurotransmission processes. We found that Wnt canonical pathway was disrupted following early methyl donor deficiency and that neuronal targets were selectively enriched in the downregulated genes. These results could explain the structural brain defects previously observed and highlighted new genes and a new molecular pathway affected by nutritional methyl donor deprivation.
妊娠期甲基供体(特别是 B9 和 B12 维生素)缺乏与出生缺陷和大脑发育迟缓有关。目前仍不清楚其失调的潜在分子机制,特别是在小脑。从先前的数据可以看出,女性比男性受影响更大。因此,在这项研究中,我们利用已验证的大鼠营养模型,对雌性后代的小脑进行了微阵列分析,以确定哪些基因和分子途径受到甲基供体缺乏的影响。我们发现,小脑发育在雌性幼仔中发生改变,在出生后第 21 天颗粒细胞层厚度减少。此外,我们研究了 Wnt 信号通路的参与情况,该通路是一个主要的分子途径,涉及神经元发育,以及随后的突触组装和神经递质传递过程。我们发现,早期甲基供体缺乏后 Wnt 经典途径被破坏,神经元靶标在下调基因中被选择性富集。这些结果可以解释之前观察到的结构性脑缺陷,并强调了受营养性甲基供体剥夺影响的新基因和新分子途径。
