TY - JOUR
T1 - DNA demethylation is associated with malignant progression of lower-grade gliomas
AU - Nomura, Masashi
AU - Saito, Kuniaki
AU - Aihara, Koki
AU - Nagae, Genta
AU - Yamamoto, Shogo
AU - Tatsuno, Kenji
AU - Ueda, Hiroki
AU - Fukuda, Shiro
AU - Umeda, Takayoshi
AU - Tanaka, Shota
AU - Takayanagi, Shunsaku
AU - Otani, Ryohei
AU - Nejo, Takahide
AU - Hana, Taijun
AU - Takahashi, Satoshi
AU - Kitagawa, Yosuke
AU - Omata, Mayu
AU - Higuchi, Fumi
AU - Nakamura, Taishi
AU - Muragaki, Yoshihiro
AU - Narita, Yoshitaka
AU - Nagane, Motoo
AU - Nishikawa, Ryo
AU - Ueki, Keisuke
AU - Saito, Nobuhito
AU - Aburatani, Hiroyuki
AU - Mukasa, Akitake
N1 - Publisher Copyright:
© 2019, The Author(s).
PY - 2019/12/1
Y1 - 2019/12/1
N2 - To elucidate the mechanisms of malignant progression of lower-grade glioma, molecular profiling using methylation array, whole-exome sequencing, and RNA sequencing was performed for 122, 36 and 31 gliomas, respectively. This cohort included 24 matched pairs of initial lower-grade gliomas and recurrent tumors, most of which showed malignant progression. Nearly half of IDH-mutant glioblastomas that had progressed from lower-grade gliomas exhibited characteristic partial DNA demethylation in previously methylated genomic regions of their corresponding initial tumors, which had the glioma CpG island methylator phenotype (G-CIMP). In these glioblastomas, cell cycle-related genes, RB and PI3K-AKT pathway genes were frequently altered. Notably, late-replicating domain was significantly enriched in the demethylated regions that were mostly located in non-regulatory regions, suggesting that the loss of DNA methylation during malignant transformation may involve mainly passive demethylation due to a delay in maintenance of methylation during accelerated cell division. Nonetheless, a limited number of genes including IGF2BP3, which potentially drives cell proliferation, were presumed to be upregulated due to demethylation of their promoter. Our data indicated that demethylation of the G-CIMP profile found in a subset of recurrent gliomas reflects accelerated cell divisions accompanied by malignant transformation. Oncogenic genes activated by such epigenetic change represent potential therapeutic targets.
AB - To elucidate the mechanisms of malignant progression of lower-grade glioma, molecular profiling using methylation array, whole-exome sequencing, and RNA sequencing was performed for 122, 36 and 31 gliomas, respectively. This cohort included 24 matched pairs of initial lower-grade gliomas and recurrent tumors, most of which showed malignant progression. Nearly half of IDH-mutant glioblastomas that had progressed from lower-grade gliomas exhibited characteristic partial DNA demethylation in previously methylated genomic regions of their corresponding initial tumors, which had the glioma CpG island methylator phenotype (G-CIMP). In these glioblastomas, cell cycle-related genes, RB and PI3K-AKT pathway genes were frequently altered. Notably, late-replicating domain was significantly enriched in the demethylated regions that were mostly located in non-regulatory regions, suggesting that the loss of DNA methylation during malignant transformation may involve mainly passive demethylation due to a delay in maintenance of methylation during accelerated cell division. Nonetheless, a limited number of genes including IGF2BP3, which potentially drives cell proliferation, were presumed to be upregulated due to demethylation of their promoter. Our data indicated that demethylation of the G-CIMP profile found in a subset of recurrent gliomas reflects accelerated cell divisions accompanied by malignant transformation. Oncogenic genes activated by such epigenetic change represent potential therapeutic targets.
UR - https://www.scopus.com/pages/publications/85061493831
U2 - 10.1038/s41598-019-38510-0
DO - 10.1038/s41598-019-38510-0
M3 - 記事
C2 - 30760837
AN - SCOPUS:85061493831
SN - 2045-2322
VL - 9
JO - Scientific Reports
JF - Scientific Reports
IS - 1
M1 - 1903
ER -
