Abstract 4432: Targeted TET oxidase activity through methyl-CpG binding domain extensively suppresses cancer cell proliferation

Abstract

Abstract DNA demethylating agents are useful therapeutic drugs for human cancer; 5-aza-2’-deoxycytidine and 5-azacytidine for myelodysplastic syndrome are good examples. They not only induce DNA demethylation but also have significant cytostatic and cytotoxic effects. However, precise mechanisms for anticancer activity of these demethylating reagents have yet to be established, mainly due to the lack of method to induce only DNA demethylation. Here we show that a fusion protein comprising the methyl-CpG binding domain (MBD) and the catalytic domain of Ten-eleven translocation protein 1 (TET1-CD) globally demethylates and upregulates a number of methylated genes. Gene expression microarray analyses using human embryonic kidney cell line 293T indicate that cells expressing wild-type (wt) TET1 catalytic domain with MBD (MBD-TET1-CDwt) upregulates more genes than ones expressing TET1-CDwt without MBD (TET1-CDwt) or catalytically inactive TET1-CD mutant (mut) with MBD (MBD-TET1-CDmut) and their upregulated genes frequently contained CpG islands (CGIs) within ± 1,000-bp of the transcription start site (TSS). Interestingly, 65% of genes upregulated 5-fold or more by MBD-TET1-CDwt were also reactivated after treatment with 5-azacytidine, DNA demethylating agent. These results suggested a fact that gene reactivation by both methods was primarily based on DNA demethylation. In order to examine growth inhibitory effects of DNA demethylation to cancer cells, we utilized a tetracycline inducible system to regulate the expression of MBD-TET1-CDwt using a prostate cancer cell line. Induction of MBD-TET1-CDwt demethylated and upregulated the glutathione S-transferase pi 1 (GSTP1), one of the hypermethylated genes in prostate cancer. In accordance with reactivation of methylated genes, induction of MBD-TET1-CDwt extensively suppressed the growth of LNCaP cells. Flow cytometry analysis showed decreased cells in S phase and increased cells in G1 phase by MBD-TET1-CDwt expression. Our present results clearly indicate that TET oxidase activity recruited at methyl-CpG sites through MBD induces reactivation of hypermethylated genes by DNA demethylation, and that our methods allow us to analyze the effects of global DNA demethylation in a wide variety of cancer cells. Citation Format: Shinichi Fukushige, Yasuhiko Mizuguchi, Kanchan Chakma, Yuriko Saiki, Akira Horii. Targeted TET oxidase activity through methyl-CpG binding domain extensively suppresses cancer cell proliferation. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4432.