Goto Yasuhiro, Shinjo Keiko, Kondo Yutaka, Shen Lanlan, Toyota Minoru, Suzuki Hiromu, Gao Wentao, An Byonggu, Fujii Makiko, Murakami Hideki, Osada Hirotaka, Taniguchi Tetsuo, Usami Noriyasu, Kondo Masashi, Hasegawa Yoshinori, Shimokata Kaoru, Matsuo Keitaro, Hida Toyoaki, Fujimoto Nobukazu, Kishimoto Takumi, Issa Jean-Pierre J, Sekido Yoshitaka
Cancer research, 69(23), 2009
:Malignant pleural mesothelioma (MPM) is a fatal thoracic malignancy, the epigenetics of which are poorly defined. We performed high-throughput methylation analysis covering 6,157 CpG islands in 20 MPMs and 20 lung adenocarcinomas. Newly identified genes were further analyzed in 50 MPMs and 56 adenocarcinomas via quantitative methylation-specific PCR. Targets of histone H3 lysine 27 trimethylation (H3K27me3) and genetic alterations were also assessed in MPM cells by chromatin immunoprecipitation arrays and comparative genomic hybridization arrays. An average of 387 genes (6.3%) and 544 genes (8.8%) were hypermethylated in MPM and adenocarcinoma, respectively. Hierarchical cluster analysis showed that the two malignancies have characteristic DNA methylation patterns, likely a result of different pathologic processes. In MPM, a separate subset of genes was silenced by H3K27me3 and could be reactivated by treatment with a histone deacetylase inhibitor alone. Integrated analysis of these epigenetic and genetic alterations revealed that only 11% of heterozygously deleted genes were affected by DNA methylation and/or H3K27me3 in MPMs. Among the DNA hypermethylated genes, three (TMEM30B,