Abstract 1079: Distinct DNA methylation targets by aging and chronic inflammation

Abstract

Abstract Aberrant DNA methylation is involved in many types of human cancers, and is induced by aging. In addition, it is known to be induced by chronic inflammation, and this inflammation-induced DNA methylation is considered as acceleration of age-related methylation. However, few studies addressed target genomic regions of age-related and inflammation-induced DNA methylation in a genome-wide manner. We previously demonstrated that Helicobacter pylori(HP) infection induces aberrant DNA methylation potently in human and gerbil gastric mucosa [Niwa, Cancer Res, 70:1430, 2010; Ushijima, Clin Cancer Res, 18:923, 2012]. Here, taking advantage of the potent methylation induction, we aimed to clarify the targets of methylation induction by aging and inflammation. We collected gastric mucosae from i) HP-never infected young individuals (under 40 years; n=4; G1), ii) HP-currently infected young individuals (n=4; G2), iii) HP-never-infected old individuals (above 60 years; n=4; G3), and vi) HP-currently-infected old individuals (n=4; G4). DNA methylation of 482,421 CpG probes was analyzed by Infinium Human Methylation 450K, and the probes were grouped into 270,249 genomic blocks. It was revealed that high levels of methylation were induced in 44,461 (16.5%) genomic blocks by current inflammation (G2/G1), even after correction of the influence of leucocyte infiltration. 61.8 % of the hypermethylation was acceleration of age-related methylation (G3/G1) while 21.6 % was specific to inflammation. Regions with H3K27me3 were frequently hypermethylated both by aging and inflammation. Basal methylation levels were essential for age-related hypermethylation while even regions with little basal methylation were hypermethylated by inflammation. When limited to promoter CpG islands, being a microRNA gene and high basal methylation levels strongly enhanced hypermethylation while H3K27me3 strongly enhanced inflammation-induced hypermethylation. Inflammation was capable of overriding active transcription. In young gastric mucosae (G2/G1), genes with high expression and frequent mutations in gastric cancers were more frequently methylated than in old ones (G4/G3).Methylation by inflammation was not simple acceleration of age-related methylation. Targets of aberrant DNA methylation were different between young and old gastric mucosae, and driver genes were preferentially methylated in young gastric mucosa [Yamashita, Clin Epigenet, in press]. Citation Format: Satoshi Yamashita, Sohachi Nanjo, Emil Rehnberg, Naoko Iida, Hideyuki Takeshima, Takayuki Ando, Takao Maekita, Toshiro Sugiyama, Toshikazu Ushijima. Distinct DNA methylation targets by aging and chronic inflammation [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 1079.