IRCCS SDN, 80143 Naples, Italy.
Division of Pharmacology, Department of Neuroscience, Reproductive and Dentistry Sciences, School of Medicine, "Federico II" University of Naples, 80131 Naples, Italy.
Toxicol Sci. 2018 Jun 1;163(2):569-578. doi: 10.1093/toxsci/kfy051.
Methylmercury (MeHg) causes neuronal death through different pathways. Particularly, we found that in cortical neurons it increased the expression of Repressor Element-1 Silencing Transcription Factor (REST), histone deacetylase (HDAC)4, Specificity Protein (Sp)1, Sp4, and reduced the levels of brain-derived neurotrophic factor (BDNF). Herein, in rat cortical neurons we investigated whether microRNA (miR)206 can modulate MeHg-induced cell death by regulating REST/HDAC4/Sp1/Sp4/BDNF axis. MeHg (1 µM) reduced miR206 expression after both 12 and 24 h and miR206 transfection prevented MeHg-induced neuronal death. Furthermore, miR206 reverted MeHg-induced REST and Sp4 increase and BDNF reduction at gene and protein level, and reverted HDAC4 protein increase, but not HDAC4 mRNA upregulation. Moreover, since no miR206 seed sequences were identified in the 3'-untranslated regions (3'-UTRs) of REST and SP4, we investigated the role of JunD, that presents a consensus motif on REST, Sp4, and BDNF promoters. Indeed, MeHg increased JunD mRNA and protein levels, and JunD knockdown counteracted MeHg-induced REST, Sp4 increase, but not BDNF reduction. Furthermore, we identified a miR206 binding site in the 3'-UTR of JunD mRNA (miR206/JunD) and mutagenesis of miR206/JunD site reverted JunD luciferase activity reduction induced by miR206. Finally, miR206 prevented MeHg-increased JunD binding to REST and Sp4 promoters, and MeHg-reduced BDNF expression was determined by the increase of HDAC4 binding on BDNF promoter IV. Collectively, these results suggest that miR206 downregulation induced by MeHg exposure determines an upregulation of HDAC4, that in turn downregulated BDNF, and the activation of JunD that, by binding REST and Sp4 gene promoters, increased their expression.
甲基汞(MeHg)通过不同途径导致神经元死亡。特别是,我们发现它在皮质神经元中增加了沉默转录因子 1 抑制元件(RE1 沉默转录因子)、组蛋白脱乙酰酶(HDAC)4、特异性蛋白(Sp)1、Sp4 的表达,降低了脑源性神经营养因子(BDNF)的水平。在此,我们在大鼠皮质神经元中研究了 microRNA(miR)206 是否可以通过调节 REST/HDAC4/Sp1/Sp4/BDNF 轴来调节 MeHg 诱导的细胞死亡。MeHg(1μM)在 12 和 24 小时后降低了 miR206 的表达,miR206 转染可防止 MeHg 诱导的神经元死亡。此外,miR206 逆转了 MeHg 诱导的 REST 和 Sp4 增加以及 BDNF 减少在基因和蛋白水平,并逆转了 HDAC4 蛋白增加,但没有逆转 HDAC4mRNA 的上调。此外,由于 REST 和 SP4 的 3'-非翻译区(3'-UTR)中没有发现 miR206 的种子序列,我们研究了 JunD 的作用,JunD 在 REST、Sp4 和 BDNF 启动子上有一个共识基序。事实上,MeHg 增加了 JunD mRNA 和蛋白水平,而 JunD 敲低则拮抗了 MeHg 诱导的 REST、Sp4 增加,但不能减少 BDNF。此外,我们在 JunD mRNA 的 3'-UTR 中鉴定出一个 miR206 结合位点(miR206/JunD),突变 miR206/JunD 位点逆转了 miR206 诱导的 JunD 荧光素酶活性降低。最后,miR206 阻止了 MeHg 增加的 JunD 与 REST 和 Sp4 启动子的结合,而 MeHg 降低的 BDNF 表达是由 BDNF 启动子 IV 上 HDAC4 结合的增加决定的。总之,这些结果表明,MeHg 暴露引起的 miR206 下调决定了 HDAC4 的上调,进而下调了 BDNF,激活了 JunD,JunD 通过结合 REST 和 Sp4 基因启动子,增加了它们的表达。
