Anuradha Jayaram1, Anna Wingate1, Daniel Wetterskog1, Vincenza Conteduca2, Daniel Khalaf3, Mansour Taghavi Azar Sharabiani4, Fabio Calabrò5, Lorraine Barwell6, Susan Feyerabend7, Enrique Grande8, Alberto Martinez-Carrasco9, Albert Font10, Alfredo Berruti11, Cora N Sternberg12, Rob Jones6, Florence Lefresne13, Marjolein Lahaye13, Shibu Thomas14, Shilpy Joshi15, Dong Shen14, Deborah Ricci14, Michael Gormley14, Axel S Merseburger16, Bertrand Tombal17, Matti Annala3,18, Kim N Chi3,19, Ugo De Giorgi2, Enrique Gonzalez-Billalabeitia9, Alexander W Wyatt3, Gerhardt Attard1. 1. University College London Cancer Institute, London, United Kingdom. 2. Istituto Scientifico Romagnolo per lo Studio e la Cura dei Tumori, Istituto di Ricovero e Cura a Carattere Scientifico, Meldola, Italy. 3. Vancouver Prostate Centre, University of British Columbia, Vancouver, British Columbia, Canada. 4. The School of Public Health, Imperial College London, London, United Kingdom. 5. San Camillo and Forlanini Hospitals, Rome, Italy. 6. University of Glasgow, The Beatson West of Scotland Cancer Centre, Glasgow, United Kingdom. 7. Studienpraxis Urologie, Nürtingen, Germany. 8. Hospital Ramón y Cajal, Madrid, Spain. 9. Hospital Universitario Morales Meseguer, Biobanco Nodo 3, Instituto Murciano de Investigación Biosanitaria-Universidad de Murcia, Murcia, Spain. 10. Institut Catala d'Oncologia-Hospital Germans Trias i Pujol, Badalona, Spain. 11. University of Brescia, Spedali Civili Hospital, Brescia, Italy. 12. Englander Institute for Precision Medicine, Weill Cornell Medicine, New York-Presbyterian Hospital, New York, NY. 13. Janssen Research and Development, Beerse, Belgium. 14. Janssen Research and Development, Spring House, PA. 15. HireGenics, Duluth, GA. 16. University Hospital Schleswig-Holstein, Lübeck, Germany. 17. Institut de Recherche Clinique, Université Catholique de Louvain, Brussels, Belgium. 18. Prostate Cancer Research Center, University of Tampere, Tampere, Finland. 19. BC Cancer Agency, Vancouver, British Columbia, Canada.
Abstract
PURPOSE: Increases in androgen receptor (AR) copy number (CN) can be detected in plasma DNA when patients develop metastatic castration-resistant prostate cancer. We aim to evaluate the association between AR CN as a continuous variable and clinical outcome. PATIENTS AND METHODS: PCR2023 was an international, multi-institution, open-label, phase II study of abiraterone acetate plus prednisolone (AAP) or abiraterone acetate plus dexamethasone that included plasma AR assessment as a predefined exploratory secondary end point. Plasma AR CN data (ClinicalTrials.gov identifier: NCT01867710) from this study (n = 133) were pooled with data from the following three other cohorts: cohort A, which was treated with either AAP or enzalutamide (n = 73); the PREMIERE trial (ClinicalTrials.gov identifier: NCT02288936) of biomarkers for enzalutamide (n = 94); and a phase II trial from British Columbia (ClinicalTrials.gov identifier: NCT02125357) that randomly assigned men to either AAP or enzalutamide (n = 201). The primary outcome measures for the biomarker analysis were overall survival and progression-free survival. RESULTS: Using multivariable fractional polynomials analysis using Cox regression models, a nonlinear relationship between plasma AR CN and outcome was identified for overall survival, where initially for small incremental gains in CN there was a large added hazard ratio that plateaued at higher CN. The CN cut point associated with the highest local hazard ratio was 1.92. A similar nonlinear association was observed with progression-free survival. In an exploratory analysis of PCR2023, the time from start of long-term androgen-deprivation therapy to start of AAP or abiraterone acetate plus dexamethasone was significantly shorter in patients with plasma AR CN of 1.92 or greater than patients with plasma AR CN of less than 1.92 (43 v 130 weeks, respectively; P = .005). This was confirmed in cohort A (P = .003), the PREMIERE cohort (P = .03), and the British Colombia cohort (P = .003). CONCLUSION:Patients with metastatic castration-resistant prostate cancer can be dichotomized by a plasma AR CN cut point of 1.92. Plasma AR CN value of 1.92 or greater identifies aggressive disease that is poorly responsive to AR targeting and is associated with a prior short response to primary androgen-deprivation therapy.
RCT Entities:
PURPOSE: Increases in androgen receptor (AR) copy number (CN) can be detected in plasma DNA when patients develop metastatic castration-resistant prostate cancer. We aim to evaluate the association between AR CN as a continuous variable and clinical outcome. PATIENTS AND METHODS: PCR2023 was an international, multi-institution, open-label, phase II study of abiraterone acetate plus prednisolone (AAP) or abiraterone acetate plus dexamethasone that included plasma AR assessment as a predefined exploratory secondary end point. Plasma AR CN data (ClinicalTrials.gov identifier: NCT01867710) from this study (n = 133) were pooled with data from the following three other cohorts: cohort A, which was treated with either AAP or enzalutamide (n = 73); the PREMIERE trial (ClinicalTrials.gov identifier: NCT02288936) of biomarkers for enzalutamide (n = 94); and a phase II trial from British Columbia (ClinicalTrials.gov identifier: NCT02125357) that randomly assigned men to either AAP or enzalutamide (n = 201). The primary outcome measures for the biomarker analysis were overall survival and progression-free survival. RESULTS: Using multivariable fractional polynomials analysis using Cox regression models, a nonlinear relationship between plasma AR CN and outcome was identified for overall survival, where initially for small incremental gains in CN there was a large added hazard ratio that plateaued at higher CN. The CN cut point associated with the highest local hazard ratio was 1.92. A similar nonlinear association was observed with progression-free survival. In an exploratory analysis of PCR2023, the time from start of long-term androgen-deprivation therapy to start of AAP or abiraterone acetate plus dexamethasone was significantly shorter in patients with plasma AR CN of 1.92 or greater than patients with plasma AR CN of less than 1.92 (43 v 130 weeks, respectively; P = .005). This was confirmed in cohort A (P = .003), the PREMIERE cohort (P = .03), and the British Colombia cohort (P = .003). CONCLUSION:Patients with metastatic castration-resistant prostate cancer can be dichotomized by a plasma AR CN cut point of 1.92. Plasma AR CN value of 1.92 or greater identifies aggressive disease that is poorly responsive to AR targeting and is associated with a prior short response to primary androgen-deprivation therapy.
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