Department of Molecular Pathology, Tohoku University School of Medicine, Sendai, Miyagi, Japan.
Epigenetics. 2011 Jun;6(6):752-9. doi: 10.4161/epi.6.6.15906. Epub 2011 Jun 1.
The identification of genes transcriptionally silenced by DNA hypermethylation is important in understanding the molecular basis of epigenetically regulated biological processes such as X chromosome inactivation, genomic imprinting and cancer development. Our previously developed methyl-CpG targeted transcriptional activation (MeTA) method reactivates epigenetically silenced genes by using a methyl-CpG binding domain from MBD2 with a transcriptional activation domain. We applied either MeTA or a conventional DNA demethylating agent, 5-aza-cytidine (Aza-CR), to human embryonic kidney cell line 293T and analyzed gene expression profiles by microarray: 138 and 202 genes that are upregulated 5-fold or more were identified by MeTA and Aza-CR, respectively. The top ten upregulated genes detected by MeTA were further analyzed. We found associations between expressional restorations by MeTA, methylation status and NFκB (AD)-MBD fusion protein bindings in CpG islands (CGIs) around the transcription start site of the genes. Importantly, MeTA can upregulate genes meeting the stringent criteria of CGIs defined by Takai and Jones at the promoter region at higher frequency: 109 of 138 (79.0%) genes in MeTA vs. 121 of 202 (59.9%) genes in Aza-CR. Interestingly, only 27 genes were upregulated by both methods; MeTA may identify methylated genes that show low levels of induction by the DNA demethylating agents; demethylating agents may also induce factors that help re-expression of genes that harbor less stringent or no CGIs. These results suggest that microarray coupled with MeTA (MeTA-array) is an efficient alternative way to identify transcriptionally silenced genes by DNA hypermethylation.
DNA 超甲基化导致的基因转录沉默的鉴定对于理解表观遗传调控的生物学过程的分子基础非常重要,如 X 染色体失活、基因组印记和癌症发生。我们之前开发的甲基化 CpG 靶向转录激活(MeTA)方法通过使用 MBD2 的甲基化 CpG 结合域与转录激活域来重新激活表观遗传沉默的基因。我们将 MeTA 或常规 DNA 去甲基化剂 5-氮杂胞苷(Aza-CR)应用于人胚肾细胞系 293T,并通过微阵列分析基因表达谱:MeTA 和 Aza-CR 分别鉴定出上调 5 倍或更多的 138 和 202 个基因。通过 MeTA 检测到的十个上调基因进一步进行了分析。我们发现,MeTA 的表达恢复与甲基化状态和 NFκB(AD)-MBD 融合蛋白在基因转录起始位点附近的 CpG 岛(CGI)中的结合之间存在关联。重要的是,MeTA 可以在上调基因时满足 Takai 和 Jones 定义的启动子区域 CGIs 的严格标准,即在 MeTA 中有 138 个基因中的 109 个(79.0%),在 Aza-CR 中有 202 个基因中的 121 个(59.9%)。有趣的是,只有 27 个基因同时被两种方法上调;MeTA 可能会识别出由 DNA 去甲基化剂诱导程度较低的甲基化基因;去甲基化剂也可能诱导有助于表达较少严格或没有 CGI 的基因的因子。这些结果表明,微阵列与 MeTA 相结合(MeTA-array)是一种通过 DNA 超甲基化鉴定转录沉默基因的有效替代方法。
