Characterizing the effects of in utero valproic acid exposure on NF-κB signaling in CD-1 mouse embryos during neural tube closure

Abstract

Nuclear factor kappa B (NF-κB) is a heterodimer of protein subunits p65 and p50, that regulates the expression of a large number of genes related to cell growth and proliferation. The p65 subunit is activated after phosphorylation by Pim-1, while the p50 subunit is the cleaved product of its precursor molecule p105. Valproic acid (VPA), an antiepileptic drug, is a known teratogen and its exposure during pregnancy is associated with 1–2% of neural tube defects in the offspring. The current study aimed at investigating the effects of in utero VPA exposure on the key components of the NF-κB signaling pathway including p65, p50, and Pim-1 in CD-1 mouse embryos during the critical period of neural tube closure. Here we report that p65, Pim-1 and p105/p50 mRNA were significantly (p < 0.05) downregulated at 1 and 3 h following in utero exposure to a teratogenic dose (400 mg/kg) of VPA in gestational day (GD)9 exposed embryos. At GD13 heads of control, non-exencephalic and exencephalic embryos were used for analysis and we found significant upregulation of p65 protein expression in non-exencephalic GD13 heads while p50 protein levels were significantly downregulated in both non-exencephalic and exencephalic groups. On the other hand, p65 and p50 protein levels remained unchanged in the nuclear extracts of the VPA-exposed non-exencephalic and exencephalic GD13 embryo heads. The reported results suggest that VPA exposure perturbates p65, p105/p50, Pim-1 transcript and p65/p50 protein levels in mouse embryos.