The tumor suppressor CDKN3 controls mitosis

Grzegorz Nalepa; Jill Barnholtz-Sloan; Rikki Enzor; Dilip Dey; Ying He; Jeff R. Gehlhausen; Amalia S. Lehmann; Su Jung Park; Yanzhu Yang; Xianlin Yang; Shi Chen; Xiaowei Guan; Yanwen Chen; Jamie Renbarger; Feng Chun Yang; Luis F. Parada; Wade Clapp

doi:10.1083/jcb.201205125

The tumor suppressor CDKN3 controls mitosis

Grzegorz Nalepa, Jill Barnholtz-Sloan, Rikki Enzor, Dilip Dey, Ying He, Jeff R. Gehlhausen, Amalia S. Lehmann, Su Jung Park, Yanzhu Yang, Xianlin Yang, Shi Chen, Xiaowei Guan, Yanwen Chen, Jamie Renbarger, Feng Chun Yang, Luis F. Parada, Wade Clapp

Developmental Biology

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

69 Scopus citations

Abstract

Mitosis is controlled by a network of kinases and phosphatases. We screened a library of small interfering RNAs against a genome-wide set of phosphatases to comprehensively evaluate the role of human phosphatases in mitosis. We found four candidate spindle checkpoint phosphatases, including the tumor suppressor CDKN3. We show that CDKN3 is essential for normal mitosis and G1/S transition. We demonstrate that subcellular localization of CDKN3 changes throughout the cell cycle. We show that CDKN3 dephosphorylates threonine-161 of CDC2 during mitotic exit and we visualize CDC2pThr-161 at kinetochores and centrosomes in early mitosis. We performed a phosphokinome-wide mass spectrometry screen to find effectors of the CDKN3-CDC2 signaling axis. We found that one of the identified downstream phosphotargets, CKβ phosphorylated at serine 209, localizes to mitotic centrosomes and controls the spindle checkpoint. Finally, we show that CDKN3 protein is down-regulated in brain tumors. Our findings indicate that CDKN3 controls mitosis through the CDC2 signaling axis. These results have implications for targeted anticancer therapeutics.

Original language	English (US)
Pages (from-to)	997-1012
Number of pages	16
Journal	Journal of Cell Biology
Volume	201
Issue number	7
DOIs	https://doi.org/10.1083/jcb.201205125
State	Published - Jun 2013

ASJC Scopus subject areas

Cell Biology

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title = "The tumor suppressor CDKN3 controls mitosis",

abstract = "Mitosis is controlled by a network of kinases and phosphatases. We screened a library of small interfering RNAs against a genome-wide set of phosphatases to comprehensively evaluate the role of human phosphatases in mitosis. We found four candidate spindle checkpoint phosphatases, including the tumor suppressor CDKN3. We show that CDKN3 is essential for normal mitosis and G1/S transition. We demonstrate that subcellular localization of CDKN3 changes throughout the cell cycle. We show that CDKN3 dephosphorylates threonine-161 of CDC2 during mitotic exit and we visualize CDC2pThr-161 at kinetochores and centrosomes in early mitosis. We performed a phosphokinome-wide mass spectrometry screen to find effectors of the CDKN3-CDC2 signaling axis. We found that one of the identified downstream phosphotargets, CKβ phosphorylated at serine 209, localizes to mitotic centrosomes and controls the spindle checkpoint. Finally, we show that CDKN3 protein is down-regulated in brain tumors. Our findings indicate that CDKN3 controls mitosis through the CDC2 signaling axis. These results have implications for targeted anticancer therapeutics.",

author = "Grzegorz Nalepa and Jill Barnholtz-Sloan and Rikki Enzor and Dilip Dey and Ying He and Gehlhausen, {Jeff R.} and Lehmann, {Amalia S.} and Park, {Su Jung} and Yanzhu Yang and Xianlin Yang and Shi Chen and Xiaowei Guan and Yanwen Chen and Jamie Renbarger and Yang, {Feng Chun} and Parada, {Luis F.} and Wade Clapp",

year = "2013",

month = jun,

doi = "10.1083/jcb.201205125",

language = "English (US)",

volume = "201",

pages = "997--1012",

journal = "Journal of Cell Biology",

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T1 - The tumor suppressor CDKN3 controls mitosis

AU - Nalepa, Grzegorz

AU - Barnholtz-Sloan, Jill

AU - Enzor, Rikki

AU - Dey, Dilip

AU - He, Ying

AU - Gehlhausen, Jeff R.

AU - Lehmann, Amalia S.

AU - Park, Su Jung

AU - Yang, Yanzhu

AU - Yang, Xianlin

AU - Chen, Shi

AU - Guan, Xiaowei

AU - Chen, Yanwen

AU - Renbarger, Jamie

AU - Yang, Feng Chun

AU - Parada, Luis F.

AU - Clapp, Wade

PY - 2013/6

Y1 - 2013/6

N2 - Mitosis is controlled by a network of kinases and phosphatases. We screened a library of small interfering RNAs against a genome-wide set of phosphatases to comprehensively evaluate the role of human phosphatases in mitosis. We found four candidate spindle checkpoint phosphatases, including the tumor suppressor CDKN3. We show that CDKN3 is essential for normal mitosis and G1/S transition. We demonstrate that subcellular localization of CDKN3 changes throughout the cell cycle. We show that CDKN3 dephosphorylates threonine-161 of CDC2 during mitotic exit and we visualize CDC2pThr-161 at kinetochores and centrosomes in early mitosis. We performed a phosphokinome-wide mass spectrometry screen to find effectors of the CDKN3-CDC2 signaling axis. We found that one of the identified downstream phosphotargets, CKβ phosphorylated at serine 209, localizes to mitotic centrosomes and controls the spindle checkpoint. Finally, we show that CDKN3 protein is down-regulated in brain tumors. Our findings indicate that CDKN3 controls mitosis through the CDC2 signaling axis. These results have implications for targeted anticancer therapeutics.

AB - Mitosis is controlled by a network of kinases and phosphatases. We screened a library of small interfering RNAs against a genome-wide set of phosphatases to comprehensively evaluate the role of human phosphatases in mitosis. We found four candidate spindle checkpoint phosphatases, including the tumor suppressor CDKN3. We show that CDKN3 is essential for normal mitosis and G1/S transition. We demonstrate that subcellular localization of CDKN3 changes throughout the cell cycle. We show that CDKN3 dephosphorylates threonine-161 of CDC2 during mitotic exit and we visualize CDC2pThr-161 at kinetochores and centrosomes in early mitosis. We performed a phosphokinome-wide mass spectrometry screen to find effectors of the CDKN3-CDC2 signaling axis. We found that one of the identified downstream phosphotargets, CKβ phosphorylated at serine 209, localizes to mitotic centrosomes and controls the spindle checkpoint. Finally, we show that CDKN3 protein is down-regulated in brain tumors. Our findings indicate that CDKN3 controls mitosis through the CDC2 signaling axis. These results have implications for targeted anticancer therapeutics.

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The tumor suppressor CDKN3 controls mitosis

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