ARN-509: A novel antiandrogen for prostate cancer treatment

Nicola J. Clegg; John Wongvipat; James D. Joseph; Chris Tran; Samedy Ouk; Anna Dilhas; Yu Chen; Kate Grillot; Eric D. Bischoff; Ling Cai; Anna Aparicio; Steven Dorow; Vivek Arora; Gang Shao; Jing Qian; Hong Zhao; Guangbin Yang; Chunyan Cao; John Sensintaffar; Teresa Wasielewska; Mark R. Herbert; Celine Bonnefous; Beatrice Darimont; Howard I. Scher; Peter Smith-Jones; Mark Klang; Nicholas D. Smith; Elisa De Stanchina; Nian Wu; Ouathek Ouerfelli; Peter J. Rix; Richard A. Heyman; Michael E. Jung; Charles L. Sawyers; Jeffrey H. Hager

doi:10.1158/0008-5472.CAN-11-3948

ARN-509: A novel antiandrogen for prostate cancer treatment

Nicola J. Clegg, John Wongvipat, James D. Joseph, Chris Tran, Samedy Ouk, Anna Dilhas, Yu Chen, Kate Grillot, Eric D. Bischoff, Ling Cai, Anna Aparicio, Steven Dorow, Vivek Arora, Gang Shao, Jing Qian, Hong Zhao, Guangbin Yang, Chunyan Cao, John Sensintaffar, Teresa WasielewskaMark R. Herbert, Celine Bonnefous, Beatrice Darimont, Howard I. Scher, Peter Smith-Jones, Mark Klang, Nicholas D. Smith, Elisa De Stanchina, Nian Wu, Ouathek Ouerfelli, Peter J. Rix, Richard A. Heyman, Michael E. Jung, Charles L. Sawyers, Jeffrey H. Hager

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

567 Scopus citations

Abstract

Continued reliance on the androgen receptor (AR) is now understood as a core mechanism in castration-resistant prostate cancer (CRPC), the most advanced form of this disease. While established and novel AR pathway-targeting agents display clinical efficacy in metastatic CRPC, dose-limiting side effects remain problematic for all current agents. In this study, we report the discovery and development of ARN-509, a competitive AR inhibitor that is fully antagonistic to AR overexpression, a common and important feature of CRPC. ARN-509 was optimized for inhibition of AR transcriptional activity and prostate cancer cell proliferation, pharmacokinetics, and in vivo efficacy. In contrast to bicalutamide, ARN-509 lacked significant agonist activity in preclinical models of CRPC. Moreover, ARN-509 lacked inducing activity for AR nuclear localization or DNA binding. In a clinically valid murine xenograft model of human CRPC, ARN-509 showed greater efficacy than MDV3100. Maximal therapeutic response in this model was achieved at 30 mg/kg/d of ARN-509, whereas the same response required 100 mg/kg/d of MDV3100 and higher steady-state plasma concentrations. Thus, ARN-509 exhibits characteristics predicting a higher therapeutic index with a greater potential to reach maximally efficacious doses in man than current AR antagonists. Our findings offer preclinical proof of principle for ARN-509 as a promising therapeutic in both castration-sensitive and castration-resistant forms of prostate cancer.

Original language	English (US)
Pages (from-to)	1494-1503
Number of pages	10
Journal	Cancer Research
Volume	72
Issue number	6
DOIs	https://doi.org/10.1158/0008-5472.CAN-11-3948
State	Published - Mar 15 2012
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/0008-5472.CAN-11-3948

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Clegg, N. J., Wongvipat, J., Joseph, J. D., Tran, C., Ouk, S., Dilhas, A., Chen, Y., Grillot, K., Bischoff, E. D., Cai, L., Aparicio, A., Dorow, S., Arora, V., Shao, G., Qian, J., Zhao, H., Yang, G., Cao, C., Sensintaffar, J., ... Hager, J. H. (2012). ARN-509: A novel antiandrogen for prostate cancer treatment. Cancer Research, 72(6), 1494-1503. https://doi.org/10.1158/0008-5472.CAN-11-3948

Clegg, NJ, Wongvipat, J, Joseph, JD, Tran, C, Ouk, S, Dilhas, A, Chen, Y, Grillot, K, Bischoff, ED, Cai, L, Aparicio, A, Dorow, S, Arora, V, Shao, G, Qian, J, Zhao, H, Yang, G, Cao, C, Sensintaffar, J, Wasielewska, T, Herbert, MR, Bonnefous, C, Darimont, B, Scher, HI, Smith-Jones, P, Klang, M, Smith, ND, De Stanchina, E, Wu, N, Ouerfelli, O, Rix, PJ, Heyman, RA, Jung, ME, Sawyers, CL & Hager, JH 2012, 'ARN-509: A novel antiandrogen for prostate cancer treatment', Cancer Research, vol. 72, no. 6, pp. 1494-1503. https://doi.org/10.1158/0008-5472.CAN-11-3948

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title = "ARN-509: A novel antiandrogen for prostate cancer treatment",

abstract = "Continued reliance on the androgen receptor (AR) is now understood as a core mechanism in castration-resistant prostate cancer (CRPC), the most advanced form of this disease. While established and novel AR pathway-targeting agents display clinical efficacy in metastatic CRPC, dose-limiting side effects remain problematic for all current agents. In this study, we report the discovery and development of ARN-509, a competitive AR inhibitor that is fully antagonistic to AR overexpression, a common and important feature of CRPC. ARN-509 was optimized for inhibition of AR transcriptional activity and prostate cancer cell proliferation, pharmacokinetics, and in vivo efficacy. In contrast to bicalutamide, ARN-509 lacked significant agonist activity in preclinical models of CRPC. Moreover, ARN-509 lacked inducing activity for AR nuclear localization or DNA binding. In a clinically valid murine xenograft model of human CRPC, ARN-509 showed greater efficacy than MDV3100. Maximal therapeutic response in this model was achieved at 30 mg/kg/d of ARN-509, whereas the same response required 100 mg/kg/d of MDV3100 and higher steady-state plasma concentrations. Thus, ARN-509 exhibits characteristics predicting a higher therapeutic index with a greater potential to reach maximally efficacious doses in man than current AR antagonists. Our findings offer preclinical proof of principle for ARN-509 as a promising therapeutic in both castration-sensitive and castration-resistant forms of prostate cancer.",

author = "Clegg, {Nicola J.} and John Wongvipat and Joseph, {James D.} and Chris Tran and Samedy Ouk and Anna Dilhas and Yu Chen and Kate Grillot and Bischoff, {Eric D.} and Ling Cai and Anna Aparicio and Steven Dorow and Vivek Arora and Gang Shao and Jing Qian and Hong Zhao and Guangbin Yang and Chunyan Cao and John Sensintaffar and Teresa Wasielewska and Herbert, {Mark R.} and Celine Bonnefous and Beatrice Darimont and Scher, {Howard I.} and Peter Smith-Jones and Mark Klang and Smith, {Nicholas D.} and {De Stanchina}, Elisa and Nian Wu and Ouathek Ouerfelli and Rix, {Peter J.} and Heyman, {Richard A.} and Jung, {Michael E.} and Sawyers, {Charles L.} and Hager, {Jeffrey H.}",

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T2 - A novel antiandrogen for prostate cancer treatment

AU - Clegg, Nicola J.

AU - Wongvipat, John

AU - Joseph, James D.

AU - Tran, Chris

AU - Ouk, Samedy

AU - Dilhas, Anna

AU - Chen, Yu

AU - Grillot, Kate

AU - Bischoff, Eric D.

AU - Cai, Ling

AU - Aparicio, Anna

AU - Dorow, Steven

AU - Arora, Vivek

AU - Shao, Gang

AU - Qian, Jing

AU - Zhao, Hong

AU - Yang, Guangbin

AU - Cao, Chunyan

AU - Sensintaffar, John

AU - Wasielewska, Teresa

AU - Herbert, Mark R.

AU - Bonnefous, Celine

AU - Darimont, Beatrice

AU - Scher, Howard I.

AU - Smith-Jones, Peter

AU - Klang, Mark

AU - Smith, Nicholas D.

AU - De Stanchina, Elisa

AU - Wu, Nian

AU - Ouerfelli, Ouathek

AU - Rix, Peter J.

AU - Heyman, Richard A.

AU - Jung, Michael E.

AU - Sawyers, Charles L.

AU - Hager, Jeffrey H.

PY - 2012/3/15

Y1 - 2012/3/15

N2 - Continued reliance on the androgen receptor (AR) is now understood as a core mechanism in castration-resistant prostate cancer (CRPC), the most advanced form of this disease. While established and novel AR pathway-targeting agents display clinical efficacy in metastatic CRPC, dose-limiting side effects remain problematic for all current agents. In this study, we report the discovery and development of ARN-509, a competitive AR inhibitor that is fully antagonistic to AR overexpression, a common and important feature of CRPC. ARN-509 was optimized for inhibition of AR transcriptional activity and prostate cancer cell proliferation, pharmacokinetics, and in vivo efficacy. In contrast to bicalutamide, ARN-509 lacked significant agonist activity in preclinical models of CRPC. Moreover, ARN-509 lacked inducing activity for AR nuclear localization or DNA binding. In a clinically valid murine xenograft model of human CRPC, ARN-509 showed greater efficacy than MDV3100. Maximal therapeutic response in this model was achieved at 30 mg/kg/d of ARN-509, whereas the same response required 100 mg/kg/d of MDV3100 and higher steady-state plasma concentrations. Thus, ARN-509 exhibits characteristics predicting a higher therapeutic index with a greater potential to reach maximally efficacious doses in man than current AR antagonists. Our findings offer preclinical proof of principle for ARN-509 as a promising therapeutic in both castration-sensitive and castration-resistant forms of prostate cancer.

AB - Continued reliance on the androgen receptor (AR) is now understood as a core mechanism in castration-resistant prostate cancer (CRPC), the most advanced form of this disease. While established and novel AR pathway-targeting agents display clinical efficacy in metastatic CRPC, dose-limiting side effects remain problematic for all current agents. In this study, we report the discovery and development of ARN-509, a competitive AR inhibitor that is fully antagonistic to AR overexpression, a common and important feature of CRPC. ARN-509 was optimized for inhibition of AR transcriptional activity and prostate cancer cell proliferation, pharmacokinetics, and in vivo efficacy. In contrast to bicalutamide, ARN-509 lacked significant agonist activity in preclinical models of CRPC. Moreover, ARN-509 lacked inducing activity for AR nuclear localization or DNA binding. In a clinically valid murine xenograft model of human CRPC, ARN-509 showed greater efficacy than MDV3100. Maximal therapeutic response in this model was achieved at 30 mg/kg/d of ARN-509, whereas the same response required 100 mg/kg/d of MDV3100 and higher steady-state plasma concentrations. Thus, ARN-509 exhibits characteristics predicting a higher therapeutic index with a greater potential to reach maximally efficacious doses in man than current AR antagonists. Our findings offer preclinical proof of principle for ARN-509 as a promising therapeutic in both castration-sensitive and castration-resistant forms of prostate cancer.

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ARN-509: A novel antiandrogen for prostate cancer treatment

Abstract

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