Integrated multiomics analysis of hepatoblastoma unravels its heterogeneity and provides novel druggable targets

Masahiro Sekiguchi; Masafumi Seki; Tomoko Kawai; Kenichi Yoshida; Misa Yoshida; Tomoya Isobe; Noriko Hoshino; Ryota Shirai; Mio Tanaka; Ryota Souzaki; Kentaro Watanabe; Yuki Arakawa; Yasuhito Nannya; Hiromichi Suzuki; Yoichi Fujii; Keisuke Kataoka; Yuichi Shiraishi; Kenichi Chiba; Hiroko Tanaka; Teppei Shimamura; Yusuke Sato; Aiko Sato-Otsubo; Shunsuke Kimura; Yasuo Kubota; Mitsuteru Hiwatari; Katsuyoshi Koh; Yasuhide Hayashi; Yutaka Kanamori; Mureo Kasahara; Kenichi Kohashi; Motohiro Kato; Takako Yoshioka; Kimikazu Matsumoto; Akira Oka; Tomoaki Taguchi; Masashi Sanada; Yukichi Tanaka; Satoru Miyano; Kenichiro Hata; Seishi Ogawa; Junko Takita

doi:10.1038/s41698-020-0125-y

Integrated multiomics analysis of hepatoblastoma unravels its heterogeneity and provides novel druggable targets

Masahiro Sekiguchi, Masafumi Seki, Tomoko Kawai, Kenichi Yoshida, Misa Yoshida, Tomoya Isobe, Noriko Hoshino, Ryota Shirai, Mio Tanaka, Ryota Souzaki, Kentaro Watanabe, Yuki Arakawa, Yasuhito Nannya, Hiromichi Suzuki, Yoichi Fujii, Keisuke Kataoka, Yuichi Shiraishi, Kenichi Chiba, Hiroko Tanaka, Teppei ShimamuraYusuke Sato, Aiko Sato-Otsubo, Shunsuke Kimura, Yasuo Kubota, Mitsuteru Hiwatari, Katsuyoshi Koh, Yasuhide Hayashi, Yutaka Kanamori, Mureo Kasahara, Kenichi Kohashi, Motohiro Kato, Takako Yoshioka, Kimikazu Matsumoto, Akira Oka, Tomoaki Taguchi, Masashi Sanada, Yukichi Tanaka, Satoru Miyano, Kenichiro Hata, Seishi Ogawa, Junko Takita

Pathobiology

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

27 Citations (Scopus)

Abstract

Although hepatoblastoma is the most common pediatric liver cancer, its genetic heterogeneity and therapeutic targets are not well elucidated. Therefore, we conducted a multiomics analysis, including mutatome, DNA methylome, and transcriptome analyses, of 59 hepatoblastoma samples. Based on DNA methylation patterns, hepatoblastoma was classified into three clusters exhibiting remarkable correlation with clinical, histological, and genetic features. Cluster F was largely composed of cases with fetal histology and good outcomes, whereas clusters E1 and E2 corresponded primarily to embryonal/combined histology and poor outcomes. E1 and E2, albeit distinguishable by different patient age distributions, were genetically characterized by hypermethylation of the HNF4A/CEBPA-binding regions, fetal liver-like expression patterns, upregulation of the cell cycle pathway, and overexpression of NQO1 and ODC1. Inhibition of NQO1 and ODC1 in hepatoblastoma cells induced chemosensitization and growth suppression, respectively. Our results provide a comprehensive description of the molecular basis of hepatoblastoma and rational therapeutic strategies for high-risk cases.

Original language	English
Article number	20
Journal	npj Precision Oncology
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s41698-020-0125-y
Publication status	Published - Dec 1 2020

All Science Journal Classification (ASJC) codes

Oncology
Cancer Research

UN SDGs

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

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10.1038/s41698-020-0125-y

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Sekiguchi, M., Seki, M., Kawai, T., Yoshida, K., Yoshida, M., Isobe, T., Hoshino, N., Shirai, R., Tanaka, M., Souzaki, R., Watanabe, K., Arakawa, Y., Nannya, Y., Suzuki, H., Fujii, Y., Kataoka, K., Shiraishi, Y., Chiba, K., Tanaka, H., ... Takita, J. (2020). Integrated multiomics analysis of hepatoblastoma unravels its heterogeneity and provides novel druggable targets. npj Precision Oncology, 4(1), Article 20. https://doi.org/10.1038/s41698-020-0125-y

Sekiguchi, M, Seki, M, Kawai, T, Yoshida, K, Yoshida, M, Isobe, T, Hoshino, N, Shirai, R, Tanaka, M, Souzaki, R, Watanabe, K, Arakawa, Y, Nannya, Y, Suzuki, H, Fujii, Y, Kataoka, K, Shiraishi, Y, Chiba, K, Tanaka, H, Shimamura, T, Sato, Y, Sato-Otsubo, A, Kimura, S, Kubota, Y, Hiwatari, M, Koh, K, Hayashi, Y, Kanamori, Y, Kasahara, M, Kohashi, K, Kato, M, Yoshioka, T, Matsumoto, K, Oka, A, Taguchi, T, Sanada, M, Tanaka, Y, Miyano, S, Hata, K, Ogawa, S & Takita, J 2020, 'Integrated multiomics analysis of hepatoblastoma unravels its heterogeneity and provides novel druggable targets', npj Precision Oncology, vol. 4, no. 1, 20. https://doi.org/10.1038/s41698-020-0125-y

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title = "Integrated multiomics analysis of hepatoblastoma unravels its heterogeneity and provides novel druggable targets",

abstract = "Although hepatoblastoma is the most common pediatric liver cancer, its genetic heterogeneity and therapeutic targets are not well elucidated. Therefore, we conducted a multiomics analysis, including mutatome, DNA methylome, and transcriptome analyses, of 59 hepatoblastoma samples. Based on DNA methylation patterns, hepatoblastoma was classified into three clusters exhibiting remarkable correlation with clinical, histological, and genetic features. Cluster F was largely composed of cases with fetal histology and good outcomes, whereas clusters E1 and E2 corresponded primarily to embryonal/combined histology and poor outcomes. E1 and E2, albeit distinguishable by different patient age distributions, were genetically characterized by hypermethylation of the HNF4A/CEBPA-binding regions, fetal liver-like expression patterns, upregulation of the cell cycle pathway, and overexpression of NQO1 and ODC1. Inhibition of NQO1 and ODC1 in hepatoblastoma cells induced chemosensitization and growth suppression, respectively. Our results provide a comprehensive description of the molecular basis of hepatoblastoma and rational therapeutic strategies for high-risk cases.",

author = "Masahiro Sekiguchi and Masafumi Seki and Tomoko Kawai and Kenichi Yoshida and Misa Yoshida and Tomoya Isobe and Noriko Hoshino and Ryota Shirai and Mio Tanaka and Ryota Souzaki and Kentaro Watanabe and Yuki Arakawa and Yasuhito Nannya and Hiromichi Suzuki and Yoichi Fujii and Keisuke Kataoka and Yuichi Shiraishi and Kenichi Chiba and Hiroko Tanaka and Teppei Shimamura and Yusuke Sato and Aiko Sato-Otsubo and Shunsuke Kimura and Yasuo Kubota and Mitsuteru Hiwatari and Katsuyoshi Koh and Yasuhide Hayashi and Yutaka Kanamori and Mureo Kasahara and Kenichi Kohashi and Motohiro Kato and Takako Yoshioka and Kimikazu Matsumoto and Akira Oka and Tomoaki Taguchi and Masashi Sanada and Yukichi Tanaka and Satoru Miyano and Kenichiro Hata and Seishi Ogawa and Junko Takita",

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doi = "10.1038/s41698-020-0125-y",

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AU - Sekiguchi, Masahiro

AU - Seki, Masafumi

AU - Kawai, Tomoko

AU - Yoshida, Kenichi

AU - Yoshida, Misa

AU - Isobe, Tomoya

AU - Hoshino, Noriko

AU - Shirai, Ryota

AU - Tanaka, Mio

AU - Souzaki, Ryota

AU - Watanabe, Kentaro

AU - Arakawa, Yuki

AU - Nannya, Yasuhito

AU - Suzuki, Hiromichi

AU - Fujii, Yoichi

AU - Kataoka, Keisuke

AU - Shiraishi, Yuichi

AU - Chiba, Kenichi

AU - Tanaka, Hiroko

AU - Shimamura, Teppei

AU - Sato, Yusuke

AU - Sato-Otsubo, Aiko

AU - Kimura, Shunsuke

AU - Kubota, Yasuo

AU - Hiwatari, Mitsuteru

AU - Koh, Katsuyoshi

AU - Hayashi, Yasuhide

AU - Kanamori, Yutaka

AU - Kasahara, Mureo

AU - Kohashi, Kenichi

AU - Kato, Motohiro

AU - Yoshioka, Takako

AU - Matsumoto, Kimikazu

AU - Oka, Akira

AU - Taguchi, Tomoaki

AU - Sanada, Masashi

AU - Tanaka, Yukichi

AU - Miyano, Satoru

AU - Hata, Kenichiro

AU - Ogawa, Seishi

AU - Takita, Junko

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Although hepatoblastoma is the most common pediatric liver cancer, its genetic heterogeneity and therapeutic targets are not well elucidated. Therefore, we conducted a multiomics analysis, including mutatome, DNA methylome, and transcriptome analyses, of 59 hepatoblastoma samples. Based on DNA methylation patterns, hepatoblastoma was classified into three clusters exhibiting remarkable correlation with clinical, histological, and genetic features. Cluster F was largely composed of cases with fetal histology and good outcomes, whereas clusters E1 and E2 corresponded primarily to embryonal/combined histology and poor outcomes. E1 and E2, albeit distinguishable by different patient age distributions, were genetically characterized by hypermethylation of the HNF4A/CEBPA-binding regions, fetal liver-like expression patterns, upregulation of the cell cycle pathway, and overexpression of NQO1 and ODC1. Inhibition of NQO1 and ODC1 in hepatoblastoma cells induced chemosensitization and growth suppression, respectively. Our results provide a comprehensive description of the molecular basis of hepatoblastoma and rational therapeutic strategies for high-risk cases.

AB - Although hepatoblastoma is the most common pediatric liver cancer, its genetic heterogeneity and therapeutic targets are not well elucidated. Therefore, we conducted a multiomics analysis, including mutatome, DNA methylome, and transcriptome analyses, of 59 hepatoblastoma samples. Based on DNA methylation patterns, hepatoblastoma was classified into three clusters exhibiting remarkable correlation with clinical, histological, and genetic features. Cluster F was largely composed of cases with fetal histology and good outcomes, whereas clusters E1 and E2 corresponded primarily to embryonal/combined histology and poor outcomes. E1 and E2, albeit distinguishable by different patient age distributions, were genetically characterized by hypermethylation of the HNF4A/CEBPA-binding regions, fetal liver-like expression patterns, upregulation of the cell cycle pathway, and overexpression of NQO1 and ODC1. Inhibition of NQO1 and ODC1 in hepatoblastoma cells induced chemosensitization and growth suppression, respectively. Our results provide a comprehensive description of the molecular basis of hepatoblastoma and rational therapeutic strategies for high-risk cases.

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ER -

Integrated multiomics analysis of hepatoblastoma unravels its heterogeneity and provides novel druggable targets

Abstract

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UN SDGs

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