Cell-based screen identifies a new potent and highly selective CK2 inhibitor for modulation of circadian rhythms and cancer cell growth

Tsuyoshi Oshima; Yoshimi Niwa; Keiko Kuwata; Ashutosh Srivastava; Tomoko Hyoda; Yoshiki Tsuchiya; Megumi Kumagai; Masato Tsuyuguchi; Teruya Tamaru; Akiko Sugiyama; Natsuko Ono; Norjin Zolboot; Yoshiki Aikawa; Shunsuke Oishi; Atsushi Nonami; Fumio Arai; Shinya Hagihara; Junichiro Yamaguchi; Florence Tama; Yuya Kunisaki; Kazuhiro Yagita; Masaaki Ikeda; Takayoshi Kinoshita; Steve A. Kay; Kenichiro Itami; Tsuyoshi Hirota

doi:10.1126/sciadv.aau9060

Cell-based screen identifies a new potent and highly selective CK2 inhibitor for modulation of circadian rhythms and cancer cell growth

Tsuyoshi Oshima, Yoshimi Niwa, Keiko Kuwata, Ashutosh Srivastava, Tomoko Hyoda, Yoshiki Tsuchiya, Megumi Kumagai, Masato Tsuyuguchi, Teruya Tamaru, Akiko Sugiyama, Natsuko Ono, Norjin Zolboot, Yoshiki Aikawa, Shunsuke Oishi, Atsushi Nonami, Fumio Arai, Shinya Hagihara, Junichiro Yamaguchi, Florence Tama, Yuya KunisakiKazuhiro Yagita, Masaaki Ikeda, Takayoshi Kinoshita, Steve A. Kay, Kenichiro Itami, Tsuyoshi Hirota

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

66 被引用数 (Scopus)

抄録

Compounds targeting the circadian clock have been identified as potential treatments for clock-related diseases, including cancer. Our cell-based phenotypic screen revealed uncharacterized clock-modulating compounds. Through affinity-based target deconvolution, we identified GO289, which strongly lengthened circadian period, as a potent and selective inhibitor of CK2. Phosphoproteomics identified multiple phosphorylation sites inhibited by GO289 on clock proteins, including PER2 S693. Furthermore, GO289 exhibited cell type–dependent inhibition of cancer cell growth that correlated with cellular clock function. The x-ray crystal structure of the CK2-GO289 complex revealed critical interactions between GO289 and CK2-specific residues and no direct interaction of GO289 with the hinge region that is highly conserved among kinases. The discovery of GO289 provides a direct link between the circadian clock and cancer regulation and reveals unique design principles underlying kinase selectivity.

本文言語	英語
論文番号	eaau9060
ジャーナル	Science Advances
巻	5
号	1
DOI	https://doi.org/10.1126/sciadv.aau9060
出版ステータス	出版済み - 1月 23 2019

!!!All Science Journal Classification (ASJC) codes

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引用スタイル

Oshima, T., Niwa, Y., Kuwata, K., Srivastava, A., Hyoda, T., Tsuchiya, Y., Kumagai, M., Tsuyuguchi, M., Tamaru, T., Sugiyama, A., Ono, N., Zolboot, N., Aikawa, Y., Oishi, S., Nonami, A., Arai, F., Hagihara, S., Yamaguchi, J., Tama, F., ... Hirota, T. (2019). Cell-based screen identifies a new potent and highly selective CK2 inhibitor for modulation of circadian rhythms and cancer cell growth. Science Advances, 5(1), [eaau9060]. https://doi.org/10.1126/sciadv.aau9060

Oshima, T, Niwa, Y, Kuwata, K, Srivastava, A, Hyoda, T, Tsuchiya, Y, Kumagai, M, Tsuyuguchi, M, Tamaru, T, Sugiyama, A, Ono, N, Zolboot, N, Aikawa, Y, Oishi, S, Nonami, A, Arai, F, Hagihara, S, Yamaguchi, J, Tama, F, Kunisaki, Y, Yagita, K, Ikeda, M, Kinoshita, T, Kay, SA, Itami, K & Hirota, T 2019, 'Cell-based screen identifies a new potent and highly selective CK2 inhibitor for modulation of circadian rhythms and cancer cell growth', Science Advances, vol. 5, no. 1, eaau9060. https://doi.org/10.1126/sciadv.aau9060

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title = "Cell-based screen identifies a new potent and highly selective CK2 inhibitor for modulation of circadian rhythms and cancer cell growth",

abstract = "Compounds targeting the circadian clock have been identified as potential treatments for clock-related diseases, including cancer. Our cell-based phenotypic screen revealed uncharacterized clock-modulating compounds. Through affinity-based target deconvolution, we identified GO289, which strongly lengthened circadian period, as a potent and selective inhibitor of CK2. Phosphoproteomics identified multiple phosphorylation sites inhibited by GO289 on clock proteins, including PER2 S693. Furthermore, GO289 exhibited cell type–dependent inhibition of cancer cell growth that correlated with cellular clock function. The x-ray crystal structure of the CK2-GO289 complex revealed critical interactions between GO289 and CK2-specific residues and no direct interaction of GO289 with the hinge region that is highly conserved among kinases. The discovery of GO289 provides a direct link between the circadian clock and cancer regulation and reveals unique design principles underlying kinase selectivity.",

author = "Tsuyoshi Oshima and Yoshimi Niwa and Keiko Kuwata and Ashutosh Srivastava and Tomoko Hyoda and Yoshiki Tsuchiya and Megumi Kumagai and Masato Tsuyuguchi and Teruya Tamaru and Akiko Sugiyama and Natsuko Ono and Norjin Zolboot and Yoshiki Aikawa and Shunsuke Oishi and Atsushi Nonami and Fumio Arai and Shinya Hagihara and Junichiro Yamaguchi and Florence Tama and Yuya Kunisaki and Kazuhiro Yagita and Masaaki Ikeda and Takayoshi Kinoshita and Kay, {Steve A.} and Kenichiro Itami and Tsuyoshi Hirota",

note = "Funding Information: We thank Y. Nagai, K. Goto, D. Yokogawa, and T. Suzuki for technical assistance; J. W. Lee and P. G. Schultz for help during the initial stage of the project; J. S. Takahashi for Per2::Luc knock-in mice; and M. Hatori and K. Tamai for critical reading of the manuscript. This work was supported in part by PRESTO Grant JPMJPR14LA from JST (to T.Hi.); Grant-in-Aid for Research Activity start-up 26891011, Young Scientists (A) 15H05590, and Scientific Research (B) 18H02402 from JSPS (to T.Hi.); the Naito Foundation (to T.Hi.); the Inamori Foundation (to T.Hi.); the Takeda Science Foundation (to T.Hi.); Grant-in-Aid for JSPS Fellows 16J04435 (to T.O.) and 15J05509 (to Y.N.) from JSPS; Grant-in-Aid for Scientific Research (B) 18H02841 from JSPS (to Y.K.); and Grant-in-Aid for Scientific Research 26119006 and 15K21711 from JSPS (to F.T.). Preliminary experiments and diffraction data collection were carried out at the beamline BL17A of the Photon Factory (proposal no. 2016G665) and at the Osaka University beamline BL44XU of SPring-8 (proposal no. 2015A6518). Publisher Copyright: Copyright {\textcopyright} 2019 The Authors, some rights reserved.",

year = "2019",

month = jan,

day = "23",

doi = "10.1126/sciadv.aau9060",

language = "English",

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issn = "2375-2548",

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T1 - Cell-based screen identifies a new potent and highly selective CK2 inhibitor for modulation of circadian rhythms and cancer cell growth

AU - Oshima, Tsuyoshi

AU - Niwa, Yoshimi

AU - Kuwata, Keiko

AU - Srivastava, Ashutosh

AU - Hyoda, Tomoko

AU - Tsuchiya, Yoshiki

AU - Kumagai, Megumi

AU - Tsuyuguchi, Masato

AU - Tamaru, Teruya

AU - Sugiyama, Akiko

AU - Ono, Natsuko

AU - Zolboot, Norjin

AU - Aikawa, Yoshiki

AU - Oishi, Shunsuke

AU - Nonami, Atsushi

AU - Arai, Fumio

AU - Hagihara, Shinya

AU - Yamaguchi, Junichiro

AU - Tama, Florence

AU - Kunisaki, Yuya

AU - Yagita, Kazuhiro

AU - Ikeda, Masaaki

AU - Kinoshita, Takayoshi

AU - Kay, Steve A.

AU - Itami, Kenichiro

AU - Hirota, Tsuyoshi

N1 - Funding Information: We thank Y. Nagai, K. Goto, D. Yokogawa, and T. Suzuki for technical assistance; J. W. Lee and P. G. Schultz for help during the initial stage of the project; J. S. Takahashi for Per2::Luc knock-in mice; and M. Hatori and K. Tamai for critical reading of the manuscript. This work was supported in part by PRESTO Grant JPMJPR14LA from JST (to T.Hi.); Grant-in-Aid for Research Activity start-up 26891011, Young Scientists (A) 15H05590, and Scientific Research (B) 18H02402 from JSPS (to T.Hi.); the Naito Foundation (to T.Hi.); the Inamori Foundation (to T.Hi.); the Takeda Science Foundation (to T.Hi.); Grant-in-Aid for JSPS Fellows 16J04435 (to T.O.) and 15J05509 (to Y.N.) from JSPS; Grant-in-Aid for Scientific Research (B) 18H02841 from JSPS (to Y.K.); and Grant-in-Aid for Scientific Research 26119006 and 15K21711 from JSPS (to F.T.). Preliminary experiments and diffraction data collection were carried out at the beamline BL17A of the Photon Factory (proposal no. 2016G665) and at the Osaka University beamline BL44XU of SPring-8 (proposal no. 2015A6518). Publisher Copyright: Copyright © 2019 The Authors, some rights reserved.

PY - 2019/1/23

Y1 - 2019/1/23

N2 - Compounds targeting the circadian clock have been identified as potential treatments for clock-related diseases, including cancer. Our cell-based phenotypic screen revealed uncharacterized clock-modulating compounds. Through affinity-based target deconvolution, we identified GO289, which strongly lengthened circadian period, as a potent and selective inhibitor of CK2. Phosphoproteomics identified multiple phosphorylation sites inhibited by GO289 on clock proteins, including PER2 S693. Furthermore, GO289 exhibited cell type–dependent inhibition of cancer cell growth that correlated with cellular clock function. The x-ray crystal structure of the CK2-GO289 complex revealed critical interactions between GO289 and CK2-specific residues and no direct interaction of GO289 with the hinge region that is highly conserved among kinases. The discovery of GO289 provides a direct link between the circadian clock and cancer regulation and reveals unique design principles underlying kinase selectivity.

AB - Compounds targeting the circadian clock have been identified as potential treatments for clock-related diseases, including cancer. Our cell-based phenotypic screen revealed uncharacterized clock-modulating compounds. Through affinity-based target deconvolution, we identified GO289, which strongly lengthened circadian period, as a potent and selective inhibitor of CK2. Phosphoproteomics identified multiple phosphorylation sites inhibited by GO289 on clock proteins, including PER2 S693. Furthermore, GO289 exhibited cell type–dependent inhibition of cancer cell growth that correlated with cellular clock function. The x-ray crystal structure of the CK2-GO289 complex revealed critical interactions between GO289 and CK2-specific residues and no direct interaction of GO289 with the hinge region that is highly conserved among kinases. The discovery of GO289 provides a direct link between the circadian clock and cancer regulation and reveals unique design principles underlying kinase selectivity.

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