The role of DAB2IP in androgen receptor activation during prostate cancer progression

K. Wu; J. Liu; S. F. Tseng; C. Gore; Z. Ning; N. Sharifi; L. Fazli; M. Gleave; P. Kapur; G. Xiao; X. Sun; O. K. Oz; W. Min; G. Alexandrakis; C. R. Yang; C. L. Hsieh; H. C. Wu; D. He; D. Xie; J. T. Hsieh

doi:10.1038/onc.2013.143

The role of DAB2IP in androgen receptor activation during prostate cancer progression

K. Wu, J. Liu, S. F. Tseng, C. Gore, Z. Ning, N. Sharifi, L. Fazli, M. Gleave, P. Kapur, G. Xiao, X. Sun, O. K. Oz, W. Min, G. Alexandrakis, C. R. Yang, C. L. Hsieh, H. C. Wu, D. He, D. Xie, J. T. Hsieh

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41 Scopus citations

Abstract

Altered androgen-receptor (AR) expression and/or constitutively active AR are commonly associated with prostate cancer (PCa) progression. Targeting AR remains a focal point for designing new strategy of PCa therapy. Here, we have shown that DAB2IP, a novel tumor suppressor in PCa, can inhibit AR-mediated cell growth and gene activation in PCa cells via distinct mechanisms. DAB2IP inhibits the genomic pathway by preventing AR nuclear translocation or phosphorylation and suppresses the non-genomic pathway via its unique functional domain to inactivate c-Src. Also, DAB2IP is capable of suppressing AR activation in an androgen-independent manner. In addition, DAB2IP can inhibit several AR splice variants showing constitutive activity in PCa cells. In DAB2IP -/- mice, the prostate gland exhibits hyperplastic epithelia, in which AR becomes more active. Consistently, DAB2IP expression inversely correlates with AR activation status particularly in recurrent or metastatic PCa patients. Taken together, DAB2IP is a unique intrinsic AR modulator in normal cells, and likely can be further developed into a therapeutic agent for PCa.

Original language	English (US)
Pages (from-to)	1954-1963
Number of pages	10
Journal	Oncogene
Volume	33
Issue number	15
DOIs	https://doi.org/10.1038/onc.2013.143
State	Published - Apr 10 2014

Keywords

DAB2IP
Src
androgen receptor
genomic pathway
prostate cancer

ASJC Scopus subject areas

Molecular Biology
Genetics
Cancer Research

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10.1038/onc.2013.143

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Wu, K., Liu, J., Tseng, S. F., Gore, C., Ning, Z., Sharifi, N., Fazli, L., Gleave, M., Kapur, P., Xiao, G., Sun, X., Oz, O. K., Min, W., Alexandrakis, G., Yang, C. R., Hsieh, C. L., Wu, H. C., He, D., Xie, D., & Hsieh, J. T. (2014). The role of DAB2IP in androgen receptor activation during prostate cancer progression. Oncogene, 33(15), 1954-1963. https://doi.org/10.1038/onc.2013.143

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title = "The role of DAB2IP in androgen receptor activation during prostate cancer progression",

abstract = "Altered androgen-receptor (AR) expression and/or constitutively active AR are commonly associated with prostate cancer (PCa) progression. Targeting AR remains a focal point for designing new strategy of PCa therapy. Here, we have shown that DAB2IP, a novel tumor suppressor in PCa, can inhibit AR-mediated cell growth and gene activation in PCa cells via distinct mechanisms. DAB2IP inhibits the genomic pathway by preventing AR nuclear translocation or phosphorylation and suppresses the non-genomic pathway via its unique functional domain to inactivate c-Src. Also, DAB2IP is capable of suppressing AR activation in an androgen-independent manner. In addition, DAB2IP can inhibit several AR splice variants showing constitutive activity in PCa cells. In DAB2IP -/- mice, the prostate gland exhibits hyperplastic epithelia, in which AR becomes more active. Consistently, DAB2IP expression inversely correlates with AR activation status particularly in recurrent or metastatic PCa patients. Taken together, DAB2IP is a unique intrinsic AR modulator in normal cells, and likely can be further developed into a therapeutic agent for PCa.",

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author = "K. Wu and J. Liu and Tseng, {S. F.} and C. Gore and Z. Ning and N. Sharifi and L. Fazli and M. Gleave and P. Kapur and G. Xiao and X. Sun and Oz, {O. K.} and W. Min and G. Alexandrakis and Yang, {C. R.} and Hsieh, {C. L.} and Wu, {H. C.} and D. He and D. Xie and Hsieh, {J. T.}",

note = "Funding Information: We thank Dr Jiang Min for editorial assistant and Rui Li for technical support. This work is supported in part by United States Army Grant W81XWH-04-1-0222 (JTH) and the National Natural Science Foundation of China (NSFC 81202014 to KW).",

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AU - Gleave, M.

AU - Kapur, P.

AU - Xiao, G.

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AU - Oz, O. K.

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AU - Hsieh, J. T.

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N2 - Altered androgen-receptor (AR) expression and/or constitutively active AR are commonly associated with prostate cancer (PCa) progression. Targeting AR remains a focal point for designing new strategy of PCa therapy. Here, we have shown that DAB2IP, a novel tumor suppressor in PCa, can inhibit AR-mediated cell growth and gene activation in PCa cells via distinct mechanisms. DAB2IP inhibits the genomic pathway by preventing AR nuclear translocation or phosphorylation and suppresses the non-genomic pathway via its unique functional domain to inactivate c-Src. Also, DAB2IP is capable of suppressing AR activation in an androgen-independent manner. In addition, DAB2IP can inhibit several AR splice variants showing constitutive activity in PCa cells. In DAB2IP -/- mice, the prostate gland exhibits hyperplastic epithelia, in which AR becomes more active. Consistently, DAB2IP expression inversely correlates with AR activation status particularly in recurrent or metastatic PCa patients. Taken together, DAB2IP is a unique intrinsic AR modulator in normal cells, and likely can be further developed into a therapeutic agent for PCa.

AB - Altered androgen-receptor (AR) expression and/or constitutively active AR are commonly associated with prostate cancer (PCa) progression. Targeting AR remains a focal point for designing new strategy of PCa therapy. Here, we have shown that DAB2IP, a novel tumor suppressor in PCa, can inhibit AR-mediated cell growth and gene activation in PCa cells via distinct mechanisms. DAB2IP inhibits the genomic pathway by preventing AR nuclear translocation or phosphorylation and suppresses the non-genomic pathway via its unique functional domain to inactivate c-Src. Also, DAB2IP is capable of suppressing AR activation in an androgen-independent manner. In addition, DAB2IP can inhibit several AR splice variants showing constitutive activity in PCa cells. In DAB2IP -/- mice, the prostate gland exhibits hyperplastic epithelia, in which AR becomes more active. Consistently, DAB2IP expression inversely correlates with AR activation status particularly in recurrent or metastatic PCa patients. Taken together, DAB2IP is a unique intrinsic AR modulator in normal cells, and likely can be further developed into a therapeutic agent for PCa.

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The role of DAB2IP in androgen receptor activation during prostate cancer progression

Abstract

Keywords

ASJC Scopus subject areas

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