Department of Pediatric Surgery, Nihon University School of Medicine, Tokyo, Japan.
Int J Oncol. 2012 Jan;40(1):31-9. doi: 10.3892/ijo.2011.1234. Epub 2011 Oct 13.
Differentiation of human neuroblastoma recapitulates neural crest development. In our whole genome DNA methylation screening of tissue-specific differentially methylated regions (T-DMRs) and developmental stage specific differentially methylated regions (DS-DMRs) we reported that the exon 5 CpG island (CpGi) of Zfp206 (human: ZNF206), which was required to maintain embryonic stem cells in a pluripotent state, was one of potent brain and testis-specific T-DMRs in mice. In this study methylation level of the CpG sites at Zfp206-exon 5 CpGi in mouse brain samples at three different developmental stages (15-day-old embryo; E15, new born; NB, 12-week adult; AD) were quantitatively analyzed and it was identified that Zfp206-exon 5 CpGi was the DS-DMRs in mouse brain. In AD brains, Zfp206-exon 5 CpGi was significantly hypomethylated and Zfp206 expression was repressed, compared with E15 and NB brains. Hence, methylation level of human 5'-end of CpGi at ZNF206-exon 5, which is homologous CpGi to mice, was analyzed in neuroblastomas. Although all four adrenal samples showed complete methylation at the homologous region, we found the hypomethylation in 7 out of 26 neuroblastomas and a significant association between the hypomethylation and poor prognosis. In neuroblastoma cell lines and specimens, the hypomethylation was also associated with ZNF206 expression. These data indicated that the changes in DNA methylation levels at the Zfp206-exon 5 might be one of the important factors during neuronal development in mice and that the hypomethylation of the homologous region induced ZNF206 expression in humans and was associated with human neuroblastomagenesis. Even though the function of ZNF206 and its expression regulation in neuroblastoma remain elusive, ZNF206 might be a candidate differentiation suppressor and prognosis marker in neuroblastoma.
人类神经母细胞瘤的分化再现了神经嵴的发育。在我们对组织特异性去甲基化区域(T-DMRs)和发育阶段特异性去甲基化区域(DS-DMRs)的全基因组 DNA 甲基化筛选中,我们报道了 Zfp206(人类:ZNF206)外显子 5 CpG 岛(CpGi)是维持胚胎干细胞多能状态所必需的,是小鼠中强有力的脑和睾丸特异性 T-DMRs 之一。在这项研究中,我们定量分析了小鼠脑样本中三个不同发育阶段(15 天胚胎;E15、新生;NB、12 周成年;AD)的 Zfp206 外显子 5CpGi 中 CpG 位点的甲基化水平,并确定 Zfp206 外显子 5CpGi 是小鼠大脑中的 DS-DMRs。在 AD 大脑中,与 E15 和 NB 大脑相比,Zfp206 外显子 5CpGi 显著低甲基化,Zfp206 表达受到抑制。因此,我们分析了神经母细胞瘤中 ZNF206 外显子 5 5'-端 CpGi 的人 5'-端 CpGi 的甲基化水平,该 CpGi 与小鼠同源。尽管所有 4 个肾上腺样本在同源区域均表现出完全甲基化,但我们发现 26 个神经母细胞瘤中有 7 个存在低甲基化,且低甲基化与预后不良显著相关。在神经母细胞瘤细胞系和标本中,低甲基化也与 ZNF206 表达相关。这些数据表明,在小鼠神经元发育过程中,Zfp206 外显子 5 处的 DNA 甲基化水平变化可能是一个重要因素,而同源区域的低甲基化诱导了人类 ZNF206 的表达,并与人类神经母细胞瘤的发生有关。尽管 ZNF206 的功能及其在神经母细胞瘤中的表达调控仍不清楚,但 ZNF206 可能是神经母细胞瘤中分化抑制因子和预后标志物的候选物。
