A Novel Mechanism Driving Poor-Prognosis Prostate Cancer: Overexpression of the DNA Repair Gene, Ribonucleotide Reductase Small Subunit M2 (RRM2)

5035 Background: ARV7+ mCRPC is an aggressive phenotype with a median PFS of 3-4 mo and OS of 7-9 mo. We hypothesized that ARV7+ tumors would be enriched for DNA repair mutations, rendering them more responsive to combined immune checkpoint blockade. Methods: We enrolled 15 mCRPC pts with ARV7+ CTCs (using a CLIA-certified assay) into a single arm phase 2 study. Pts received Nivo 3 mg/kg plus Ipi 1 mg/kg every 3 wk x 4 doses, then maintenance Nivo 3 mg/kg every 2 wk. Targeted sequencing for DNA repair defects was performed on pretreatment tumor biopsies (n=11) or cell-free DNA (n=4). Primary endpoint: PSA50response rate. Secondary endpoints: objective response rate (ORR) in pts with measurable disease, durable PFS (lack of progression ≥24 wk), PSA‐PFS, radiographic (r)PFS, overall survival (OS), and frequency/intensity of AEs. Results: 15 ARV7+ men were enrolled, with median f/u 8.4 (range 1.9–10.5) mo. Median age was 65, 47% had ECOG ≥1, median PSA was 115 ng/mL, 67% had visceral/nodal mets, all had bone mets, and 60% had ≥4 prior regimens for mCRPC. Mean ARV7/AR ratio was 23% (range 3–75%). 6/15 men (40%) had pathogenic DNA repair gene mutations ( BRCA2, ATM, MSH6, FANCM, FANCA, POLH). Overall, the PSA50rate was 1/15 (7%), ORR was 2/8 (25%), durable PFS rate was 3/15 (20%), PSA-PFS was 3.0 (95%CI 2.1–4.9) mo, rPFS was 3.9 (95%CI 2.8–5.5) mo, and OS was 9.5 (95%CI 7.2–NA) mo. Outcomes appeared better in DNA repair deficient (DRD+) tumors vs. DNA repair proficient (DRD–) tumors (TABLE). 15 grade 3-4 treatment-related AEs occurred in 7/15 (46%) men (including 2 hepatitis, 2 colitis, 1 pneumonitis); there were no treatment-related deaths. Conclusions: In this first study targeting ARV7+ mCRPC, treatment with Ipi/Nivo had acceptable safety and encouraging efficacy, particularly in men with DRD+ tumors. DNA repair mutations may be enriched in ARV7+ prostate cancer. Clinical trial information: NCT02601014. [Table: see text]

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TRITON3: An international, randomized, open-label, phase III study of the PARP inhibitor rucaparib vs. physician’s choice of therapy for patients with metastatic castration-resistant prostate cancer (mCRPC) associated with homologous recombination deficiency (HRD).

Journal of Clinical Oncology ◽

10.1200/jco.2018.36.6_suppl.tps389 ◽

2018 ◽

Vol 36 (6_suppl) ◽

pp. TPS389-TPS389 ◽

Cited By ~ 3

Author(s):

Charles J. Ryan ◽

Wassim Abida ◽

Alan Haruo Bryce ◽

Arjun Vasant Balar ◽

Igor Dumbadze ◽

...

Keyword(s):

Prostate Cancer ◽

Dna Repair ◽

Homologous Recombination ◽

Radiographic Progression ◽

Objective Response ◽

Phase Iii ◽

Repair Gene ◽

Dna Repair Gene ◽

Patient Reported ◽

Brca1 Brca2

TPS389 Background: Recent data have shown that up to 25% of patients with advanced prostate cancer, including mCRPC, have a deleterious germline or somatic mutation in BRCA1, BRCA2, ATM, or another homologous recombination DNA repair gene. Such mutations can be used as a molecular marker to select patients for targeted treatment with poly(ADP-ribose) polymerase inhibitors (PARPis), which are lethal to cells with HRD. Treatment with PARPis has shown preliminary evidence of antitumor activity in patients with mCRPC and a mutation in a homologous recombination DNA repair gene (Mateo et al. N Engl J Med. 2015;373:1697-708). These data provide a compelling rationale for evaluating rucaparib, a potent inhibitor of PARP1, PARP2, and PARP3, in patients with mCRPC associated with HRD. Methods: TRITON3 (NCT02975934) is a randomized, phase 3 study evaluating rucaparib 600 mg BID vs physician’s choice of abiraterone, enzalutamide, or docetaxel in patients with mCRPC and a deleterious germline or somatic BRCA1, BRCA2, or ATM mutation (identified by prior local testing or central testing during screening). Patients must have progressed on androgen receptor signaling–directed therapy in the mCRPC setting; prior PARPi treatment or chemotherapy for mCRPC are exclusion criteria. Patients will be randomly assigned in a 2:1 ratio to either rucaparib or physician’s choice, with the possibility for cross over from the comparator treatment to rucaparib upon radiographic progression confirmed by independent radiology review. The primary endpoint is radiographic progression-free survival (modified RECIST v1.1/PCWG3 criteria) assessed by independent radiology review. Secondary endpoints include objective response rate, duration of response, patient-reported outcomes, overall survival, and safety. Pretreatment blood samples collected from all patients will enable development of a noninvasive plasma-based companion diagnostic to select patients who may benefit from rucaparib treatment. Patients (≈400) will be enrolled at > 100 sites worldwide. Clinical trial information: NCT02975934.

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Prognostic impact of DNA repair germline variants in hormone sensitive prostate cancer stage.

Journal of Clinical Oncology ◽

10.1200/jco.2018.36.6_suppl.262 ◽

2018 ◽

Vol 36 (6_suppl) ◽

pp. 262-262

Author(s):

Manish Kohli ◽

Steven Hart ◽

Jenna Lilyquist ◽

Chunling Hu ◽

David W. Hillman ◽

...

Keyword(s):

Prostate Cancer ◽

Dna Repair ◽

Median Time ◽

P Value ◽

Prognostic Impact ◽

Time To Progression ◽

Repair Gene ◽

Dna Repair Gene ◽

Group A ◽

Group B

262 Background: Inherited and somatic aberrations in DNA repair genes in castrate resistant prostate cancer (CRPC) are associated with poor prognosis, but respond well to poly ADP ribose polymerase (PARP) inhibitors. We evaluated the prevalence and prognostic impact of harboring germline DNA repair variants in hormone sensitive prostate cancer (HSPC). Methods: Germline DNA from buffy coat was sequenced on HiSeq4000 with a median coverage of 200X for DNA repair variants in 20 genes in HSPC and CRPC patients (pts) enrolled in a hospital registry. Pts were divided into two groups; Group A: pts enrolled at the time of CRPC stage; Group B: treatment naïve HSPC stage pts. The primary endpoints were to determine any impact of harboring DNA repair variants on time to progression from HSPC to CRPC and, from CRPC to death. Group A pts were retrospectively analyzed for time to progression from HSPC to CRPC while Group B patients were followed prospectively for outcomes. Statistical analysis included Cox proportional hazard models and Wilcoxon Rank sum test with significance at p≤0.05. Results: In Group A, 51/562 CRPC pts (9.07%) had variants in the 20 genes (most frequently in BRCA2; n = 15). 44/51 pts with variants and 399/511 without variants had died. Median time of progression from HSPC to CRPC with/without variants was 22.1 vs. 25.1 months (mths); p-value = 0.679. Median time from CRPC to death with/without variants was 32.2 Vs. 27.7 mths (p = 0.6). In HSPC Group B, 14/100 pts were identified with germline variants in ATM (n = 5), CHEK2 (n = 3), BRCA1 (n = 2), BRCA2 (n = 2), RAD50 (n = 1), and MSH2 (n = 1). 31/100 have died and median time to progression from HSPC to CRPC with/without variants was 15.6 vs.11.8 mths, p-value = 0.76. Conclusions: Pts with germline DNA repair variants detected in HSPC stage were not associated with poor prognosis. Presence of additional somatic DNA repair gene aberrations in cell-free DNA, not investigated in this cohort may add to the prevalence of DNA repair gene variations in HSPC and together impact prognosis adversely so as to provide a rationale for PARP inhibitor therapy in select HSPC stage pts.

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