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Atsushi Kaneda

Atsushi Kaneda

Chiba University, Japan

Title: Induction of epigenetic alterations in gastric epithelium and their contribution to gastric tumorigenesis

Biography

Biography: Atsushi Kaneda

Abstract

Cancer arises through accumulation of epigenetic and genetic alterations and therefore is stratifi ed into several molecular subtypes using comprehensive epigenomic and genomic information. We showed that accumulated epigenomic alteration could causally modify tumor risk. We also comprehensively stratifi ed gastric cancer into 4-5 DNA methylation epigenotypes, depending on pathogens. While the majority of gastric cancer is associated with Helicobacter pylori infection, a subset of gastric cancer, ranging 7-15%, is associated with Epstein-Barr virus (EBV) infection. EBV+ gastric cancer exhibits most severe DNA hypermethylation and EBV itself was shown to cause the extensive hypermethylation phenotype when infected into gastric epithelial cells, involving increased expression of DNMT1. Demethylating enzyme TET2 was found to function as a resistant factor against DNA methylation induction and hMeDIP-seq and MeDIP-seq analyses revealed that target regions of hydroxy methylation by TET2 signifi cantly overlapped with target regions of de novo DNA methylation by EBV infection. Th e repression of TET2 due to viral transcripts or up-regulated human miRNAs signifi cantly contributes to de novo methylation acquisition. Other epigenomic alterations are also involved in promoter regions, enhancer regions, etc., during EBV infection and cause aberrant regulation of critical genes e.g. proliferative genes or tumor suppressor genes. Another cancer subtype with DNA hypermethylation phenotype involves aberrant methylation of mismatch repair gene MLH1, leading to microsatellite instability (MSI) and gene hypermutation in gastric cancer. Th ese subsets of gastric cancer with hypermethylation phenotype, i.e., EBV+ subtype and MSI-high subtype, showed unique gene mutation patterns, which contribute to gastric tumorigenesis synergistically with DNA hypermethylation.