Mutational landscape and clonal architecture in grade II and III gliomas

Hiromichi Suzuki; Kosuke Aoki; Kenichi Chiba; Yusuke Sato; Yusuke Shiozawa; Yuichi Shiraishi; Teppei Shimamura; Atsushi Niida; Kazuya Motomura; Fumiharu Ohka; Takashi Yamamoto; Kuniaki Tanahashi; Melissa Ranjit; Toshihiko Wakabayashi; Tetsuichi Yoshizato; Keisuke Kataoka; Kenichi Yoshida; Yasunobu Nagata; Aiko Sato-Otsubo; Hiroko Tanaka; Masashi Sanada; Yutaka Kondo; Hideo Nakamura; Masahiro Mizoguchi; Tatsuya Abe; Yoshihiro Muragaki; Reiko Watanabe; Ichiro Ito; Satoru Miyano; Atsushi Natsume; Seishi Ogawa

doi:10.1038/ng.3273

Mutational landscape and clonal architecture in grade II and III gliomas

Hiromichi Suzuki, Kosuke Aoki, Kenichi Chiba, Yusuke Sato, Yusuke Shiozawa, Yuichi Shiraishi, Teppei Shimamura, Atsushi Niida, Kazuya Motomura, Fumiharu Ohka, Takashi Yamamoto, Kuniaki Tanahashi, Melissa Ranjit, Toshihiko Wakabayashi, Tetsuichi Yoshizato, Keisuke Kataoka, Kenichi Yoshida, Yasunobu Nagata, Aiko Sato-Otsubo, Hiroko TanakaMasashi Sanada, Yutaka Kondo, Hideo Nakamura, Masahiro Mizoguchi, Tatsuya Abe, Yoshihiro Muragaki, Reiko Watanabe, Ichiro Ito, Satoru Miyano, Atsushi Natsume, Seishi Ogawa

Research output: Contribution to journal › Article › peer-review

626 Citations (Scopus)

Abstract

Grade II and III gliomas are generally slowly progressing brain cancers, many of which eventually transform into more aggressive tumors. Despite recent findings of frequent mutations in IDH1 and other genes, knowledge about their pathogenesis is still incomplete. Here, combining two large sets of high-throughput sequencing data, we delineate the entire picture of genetic alterations and affected pathways in these glioma types, with sensitive detection of driver genes. Grade II and III gliomas comprise three distinct subtypes characterized by discrete sets of mutations and distinct clinical behaviors. Mutations showed significant positive and negative correlations and a chronological hierarchy, as inferred from different allelic burdens among coexisting mutations, suggesting that there is functional interplay between the mutations that drive clonal selection. Extensive serial and multi-regional sampling analyses further supported this finding and also identified a high degree of temporal and spatial heterogeneity generated during tumor expansion and relapse, which is likely shaped by the complex but ordered processes of multiple clonal selection and evolutionary events.

Original language	English
Pages (from-to)	458-468
Number of pages	11
Journal	Nature genetics
Volume	47
Issue number	5
DOIs	https://doi.org/10.1038/ng.3273
Publication status	Published - May 30 2015
Externally published	Yes

All Science Journal Classification (ASJC) codes

Genetics

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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Suzuki, H., Aoki, K., Chiba, K., Sato, Y., Shiozawa, Y., Shiraishi, Y., Shimamura, T., Niida, A., Motomura, K., Ohka, F., Yamamoto, T., Tanahashi, K., Ranjit, M., Wakabayashi, T., Yoshizato, T., Kataoka, K., Yoshida, K., Nagata, Y., Sato-Otsubo, A., ... Ogawa, S. (2015). Mutational landscape and clonal architecture in grade II and III gliomas. Nature genetics, 47(5), 458-468. https://doi.org/10.1038/ng.3273

Suzuki, H, Aoki, K, Chiba, K, Sato, Y, Shiozawa, Y, Shiraishi, Y, Shimamura, T, Niida, A, Motomura, K, Ohka, F, Yamamoto, T, Tanahashi, K, Ranjit, M, Wakabayashi, T, Yoshizato, T, Kataoka, K, Yoshida, K, Nagata, Y, Sato-Otsubo, A, Tanaka, H, Sanada, M, Kondo, Y, Nakamura, H, Mizoguchi, M, Abe, T, Muragaki, Y, Watanabe, R, Ito, I, Miyano, S, Natsume, A & Ogawa, S 2015, 'Mutational landscape and clonal architecture in grade II and III gliomas', Nature genetics, vol. 47, no. 5, pp. 458-468. https://doi.org/10.1038/ng.3273

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title = "Mutational landscape and clonal architecture in grade II and III gliomas",

abstract = "Grade II and III gliomas are generally slowly progressing brain cancers, many of which eventually transform into more aggressive tumors. Despite recent findings of frequent mutations in IDH1 and other genes, knowledge about their pathogenesis is still incomplete. Here, combining two large sets of high-throughput sequencing data, we delineate the entire picture of genetic alterations and affected pathways in these glioma types, with sensitive detection of driver genes. Grade II and III gliomas comprise three distinct subtypes characterized by discrete sets of mutations and distinct clinical behaviors. Mutations showed significant positive and negative correlations and a chronological hierarchy, as inferred from different allelic burdens among coexisting mutations, suggesting that there is functional interplay between the mutations that drive clonal selection. Extensive serial and multi-regional sampling analyses further supported this finding and also identified a high degree of temporal and spatial heterogeneity generated during tumor expansion and relapse, which is likely shaped by the complex but ordered processes of multiple clonal selection and evolutionary events.",

author = "Hiromichi Suzuki and Kosuke Aoki and Kenichi Chiba and Yusuke Sato and Yusuke Shiozawa and Yuichi Shiraishi and Teppei Shimamura and Atsushi Niida and Kazuya Motomura and Fumiharu Ohka and Takashi Yamamoto and Kuniaki Tanahashi and Melissa Ranjit and Toshihiko Wakabayashi and Tetsuichi Yoshizato and Keisuke Kataoka and Kenichi Yoshida and Yasunobu Nagata and Aiko Sato-Otsubo and Hiroko Tanaka and Masashi Sanada and Yutaka Kondo and Hideo Nakamura and Masahiro Mizoguchi and Tatsuya Abe and Yoshihiro Muragaki and Reiko Watanabe and Ichiro Ito and Satoru Miyano and Atsushi Natsume and Seishi Ogawa",

note = "Funding Information: We thank Y. Mori, M. Nakamura and H. Higashi for their technical assistance. We gratefully acknowledge the TCGA Consortium and all its members for making their invaluable data publically available. We are grateful to all patients who generously agreed to participate in this study. This work was supported by a Grant-in-Aid for Scientific Research on Innovative Areas (S.O.; 22134006) and the Funding Program for World-Leading Innovative Research and Development on Science and Technology (S.O.) and by a Grant-in Aid for Scientific Research on Innovative Areas from the Ministry of Education, Culture, Sports, Science and Technology of Japan (A. Natsume; 23107010) and funding from the Japan Neurosurgical Society (A. Natsume; Basic Project Plan FY2012-2014). Publisher Copyright: {\textcopyright} 2015 Nature America, Inc.",

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doi = "10.1038/ng.3273",

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AU - Suzuki, Hiromichi

AU - Aoki, Kosuke

AU - Chiba, Kenichi

AU - Sato, Yusuke

AU - Shiozawa, Yusuke

AU - Shiraishi, Yuichi

AU - Shimamura, Teppei

AU - Niida, Atsushi

AU - Motomura, Kazuya

AU - Ohka, Fumiharu

AU - Yamamoto, Takashi

AU - Tanahashi, Kuniaki

AU - Ranjit, Melissa

AU - Wakabayashi, Toshihiko

AU - Yoshizato, Tetsuichi

AU - Kataoka, Keisuke

AU - Yoshida, Kenichi

AU - Nagata, Yasunobu

AU - Sato-Otsubo, Aiko

AU - Tanaka, Hiroko

AU - Sanada, Masashi

AU - Kondo, Yutaka

AU - Nakamura, Hideo

AU - Mizoguchi, Masahiro

AU - Abe, Tatsuya

AU - Muragaki, Yoshihiro

AU - Watanabe, Reiko

AU - Ito, Ichiro

AU - Miyano, Satoru

AU - Natsume, Atsushi

AU - Ogawa, Seishi

N1 - Funding Information: We thank Y. Mori, M. Nakamura and H. Higashi for their technical assistance. We gratefully acknowledge the TCGA Consortium and all its members for making their invaluable data publically available. We are grateful to all patients who generously agreed to participate in this study. This work was supported by a Grant-in-Aid for Scientific Research on Innovative Areas (S.O.; 22134006) and the Funding Program for World-Leading Innovative Research and Development on Science and Technology (S.O.) and by a Grant-in Aid for Scientific Research on Innovative Areas from the Ministry of Education, Culture, Sports, Science and Technology of Japan (A. Natsume; 23107010) and funding from the Japan Neurosurgical Society (A. Natsume; Basic Project Plan FY2012-2014). Publisher Copyright: © 2015 Nature America, Inc.

PY - 2015/5/30

Y1 - 2015/5/30

N2 - Grade II and III gliomas are generally slowly progressing brain cancers, many of which eventually transform into more aggressive tumors. Despite recent findings of frequent mutations in IDH1 and other genes, knowledge about their pathogenesis is still incomplete. Here, combining two large sets of high-throughput sequencing data, we delineate the entire picture of genetic alterations and affected pathways in these glioma types, with sensitive detection of driver genes. Grade II and III gliomas comprise three distinct subtypes characterized by discrete sets of mutations and distinct clinical behaviors. Mutations showed significant positive and negative correlations and a chronological hierarchy, as inferred from different allelic burdens among coexisting mutations, suggesting that there is functional interplay between the mutations that drive clonal selection. Extensive serial and multi-regional sampling analyses further supported this finding and also identified a high degree of temporal and spatial heterogeneity generated during tumor expansion and relapse, which is likely shaped by the complex but ordered processes of multiple clonal selection and evolutionary events.

AB - Grade II and III gliomas are generally slowly progressing brain cancers, many of which eventually transform into more aggressive tumors. Despite recent findings of frequent mutations in IDH1 and other genes, knowledge about their pathogenesis is still incomplete. Here, combining two large sets of high-throughput sequencing data, we delineate the entire picture of genetic alterations and affected pathways in these glioma types, with sensitive detection of driver genes. Grade II and III gliomas comprise three distinct subtypes characterized by discrete sets of mutations and distinct clinical behaviors. Mutations showed significant positive and negative correlations and a chronological hierarchy, as inferred from different allelic burdens among coexisting mutations, suggesting that there is functional interplay between the mutations that drive clonal selection. Extensive serial and multi-regional sampling analyses further supported this finding and also identified a high degree of temporal and spatial heterogeneity generated during tumor expansion and relapse, which is likely shaped by the complex but ordered processes of multiple clonal selection and evolutionary events.

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Mutational landscape and clonal architecture in grade II and III gliomas

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