Kdm2a promotes lung tumorigenesis by epigenetically enhancing erk1/2 signaling

Klaus W. Wagner; Hunain Alam; Shilpa S. Dhar; Uma Giri; Na Li; Yongkun Wei; Dipak Giri; Tina Cascone; Jae Hwan Kim; Yuanqing Ye; Asha S. Multani; Chia Hsin Chan; Baruch Erez; Babita Saigal; Jimyung Chung; Hui Kuan Lin; Xifeng Wu; Mien Chie Hung; John V. Heymach; Min Gyu Lee

doi:10.1172/JCI68642

Kdm2a promotes lung tumorigenesis by epigenetically enhancing erk1/2 signaling

Klaus W. Wagner, Hunain Alam, Shilpa S. Dhar, Uma Giri, Na Li, Yongkun Wei, Dipak Giri, Tina Cascone, Jae Hwan Kim, Yuanqing Ye, Asha S. Multani, Chia Hsin Chan, Baruch Erez, Babita Saigal, Jimyung Chung, Hui Kuan Lin, Xifeng Wu, Mien Chie Hung, John V. Heymach, Min Gyu Lee

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Abstract

Epigenetic dysregulation has emerged as a major contributor to tumorigenesis. Histone methylation is a wellestablished mechanism of epigenetic regulation that is dynamically modulated by histone methyltransferases and demethylases. The pathogenic role of histone methylation modifiers in non-small cell lung cancer (NSCLC), which is the leading cause of cancer deaths worldwide, remains largely unknown. Here, we found that the histone H3 lysine 36 (H3K36) demethylase KDM2A (also called FBXL11 and JHDM1A) is frequently overexpressed in NSCLC tumors and cell lines. KDM2A and its catalytic activity were required for in vitro proliferation and invasion of KDM2A-overexpressing NSCLC cells. KDM2A overexpression in NSCLC cells with low KDM2A levels increased cell proliferation and invasiveness. KDM2A knockdown abrogated tumor growth and invasive abilities of NSCLC cells in mouse xenograft models. We identified dual-specificity phosphatase 3 (DUSP3) as a key KDM2A target gene and found that DUSP3 dephosphorylates ERK1/2 in NSCLC cells. KDM2A activated ERK1/2 through epigenetic repression of DUSP3 expression via demethylation of dimethylated H3K36 at the DUSP3 locus. High KDM2A levels correlated with poor prognosis in NSCLC patients. These findings uncover an unexpected role for a histone methylation modifier in activating ERK1/2 in lung tumorigenesis and metastasis, suggesting that KDM2A may be a promising therapeutic target in NSCLC.

Original language	English (US)
Pages (from-to)	5231-5246
Number of pages	16
Journal	Journal of Clinical Investigation
Volume	123
Issue number	12
DOIs	https://doi.org/10.1172/JCI68642
State	Published - Dec 2 2013

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General Medicine

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Wagner, K. W., Alam, H., Dhar, S. S., Giri, U., Li, N., Wei, Y., Giri, D., Cascone, T., Kim, J. H., Ye, Y., Multani, A. S., Chan, C. H., Erez, B., Saigal, B., Chung, J., Lin, H. K., Wu, X., Hung, M. C., Heymach, J. V., & Lee, M. G. (2013). Kdm2a promotes lung tumorigenesis by epigenetically enhancing erk1/2 signaling. Journal of Clinical Investigation, 123(12), 5231-5246. https://doi.org/10.1172/JCI68642

Wagner, KW, Alam, H, Dhar, SS, Giri, U, Li, N, Wei, Y, Giri, D, Cascone, T, Kim, JH, Ye, Y, Multani, AS, Chan, CH, Erez, B, Saigal, B, Chung, J, Lin, HK, Wu, X, Hung, MC, Heymach, JV & Lee, MG 2013, 'Kdm2a promotes lung tumorigenesis by epigenetically enhancing erk1/2 signaling', Journal of Clinical Investigation, vol. 123, no. 12, pp. 5231-5246. https://doi.org/10.1172/JCI68642

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title = "Kdm2a promotes lung tumorigenesis by epigenetically enhancing erk1/2 signaling",

abstract = "Epigenetic dysregulation has emerged as a major contributor to tumorigenesis. Histone methylation is a wellestablished mechanism of epigenetic regulation that is dynamically modulated by histone methyltransferases and demethylases. The pathogenic role of histone methylation modifiers in non-small cell lung cancer (NSCLC), which is the leading cause of cancer deaths worldwide, remains largely unknown. Here, we found that the histone H3 lysine 36 (H3K36) demethylase KDM2A (also called FBXL11 and JHDM1A) is frequently overexpressed in NSCLC tumors and cell lines. KDM2A and its catalytic activity were required for in vitro proliferation and invasion of KDM2A-overexpressing NSCLC cells. KDM2A overexpression in NSCLC cells with low KDM2A levels increased cell proliferation and invasiveness. KDM2A knockdown abrogated tumor growth and invasive abilities of NSCLC cells in mouse xenograft models. We identified dual-specificity phosphatase 3 (DUSP3) as a key KDM2A target gene and found that DUSP3 dephosphorylates ERK1/2 in NSCLC cells. KDM2A activated ERK1/2 through epigenetic repression of DUSP3 expression via demethylation of dimethylated H3K36 at the DUSP3 locus. High KDM2A levels correlated with poor prognosis in NSCLC patients. These findings uncover an unexpected role for a histone methylation modifier in activating ERK1/2 in lung tumorigenesis and metastasis, suggesting that KDM2A may be a promising therapeutic target in NSCLC.",

author = "Wagner, {Klaus W.} and Hunain Alam and Dhar, {Shilpa S.} and Uma Giri and Na Li and Yongkun Wei and Dipak Giri and Tina Cascone and Kim, {Jae Hwan} and Yuanqing Ye and Multani, {Asha S.} and Chan, {Chia Hsin} and Baruch Erez and Babita Saigal and Jimyung Chung and Lin, {Hui Kuan} and Xifeng Wu and Hung, {Mien Chie} and Heymach, {John V.} and Lee, {Min Gyu}",

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AU - Wagner, Klaus W.

AU - Alam, Hunain

AU - Dhar, Shilpa S.

AU - Giri, Uma

AU - Li, Na

AU - Wei, Yongkun

AU - Giri, Dipak

AU - Cascone, Tina

AU - Kim, Jae Hwan

AU - Ye, Yuanqing

AU - Multani, Asha S.

AU - Chan, Chia Hsin

AU - Erez, Baruch

AU - Saigal, Babita

AU - Chung, Jimyung

AU - Lin, Hui Kuan

AU - Wu, Xifeng

AU - Hung, Mien Chie

AU - Heymach, John V.

AU - Lee, Min Gyu

PY - 2013/12/2

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N2 - Epigenetic dysregulation has emerged as a major contributor to tumorigenesis. Histone methylation is a wellestablished mechanism of epigenetic regulation that is dynamically modulated by histone methyltransferases and demethylases. The pathogenic role of histone methylation modifiers in non-small cell lung cancer (NSCLC), which is the leading cause of cancer deaths worldwide, remains largely unknown. Here, we found that the histone H3 lysine 36 (H3K36) demethylase KDM2A (also called FBXL11 and JHDM1A) is frequently overexpressed in NSCLC tumors and cell lines. KDM2A and its catalytic activity were required for in vitro proliferation and invasion of KDM2A-overexpressing NSCLC cells. KDM2A overexpression in NSCLC cells with low KDM2A levels increased cell proliferation and invasiveness. KDM2A knockdown abrogated tumor growth and invasive abilities of NSCLC cells in mouse xenograft models. We identified dual-specificity phosphatase 3 (DUSP3) as a key KDM2A target gene and found that DUSP3 dephosphorylates ERK1/2 in NSCLC cells. KDM2A activated ERK1/2 through epigenetic repression of DUSP3 expression via demethylation of dimethylated H3K36 at the DUSP3 locus. High KDM2A levels correlated with poor prognosis in NSCLC patients. These findings uncover an unexpected role for a histone methylation modifier in activating ERK1/2 in lung tumorigenesis and metastasis, suggesting that KDM2A may be a promising therapeutic target in NSCLC.

AB - Epigenetic dysregulation has emerged as a major contributor to tumorigenesis. Histone methylation is a wellestablished mechanism of epigenetic regulation that is dynamically modulated by histone methyltransferases and demethylases. The pathogenic role of histone methylation modifiers in non-small cell lung cancer (NSCLC), which is the leading cause of cancer deaths worldwide, remains largely unknown. Here, we found that the histone H3 lysine 36 (H3K36) demethylase KDM2A (also called FBXL11 and JHDM1A) is frequently overexpressed in NSCLC tumors and cell lines. KDM2A and its catalytic activity were required for in vitro proliferation and invasion of KDM2A-overexpressing NSCLC cells. KDM2A overexpression in NSCLC cells with low KDM2A levels increased cell proliferation and invasiveness. KDM2A knockdown abrogated tumor growth and invasive abilities of NSCLC cells in mouse xenograft models. We identified dual-specificity phosphatase 3 (DUSP3) as a key KDM2A target gene and found that DUSP3 dephosphorylates ERK1/2 in NSCLC cells. KDM2A activated ERK1/2 through epigenetic repression of DUSP3 expression via demethylation of dimethylated H3K36 at the DUSP3 locus. High KDM2A levels correlated with poor prognosis in NSCLC patients. These findings uncover an unexpected role for a histone methylation modifier in activating ERK1/2 in lung tumorigenesis and metastasis, suggesting that KDM2A may be a promising therapeutic target in NSCLC.

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Kdm2a promotes lung tumorigenesis by epigenetically enhancing erk1/2 signaling

Abstract

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MD Anderson CCSG core facilities

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