Synergistic Loss of Prostate Cancer Cell Viability by Coinhibition of HDAC and PARP

Chao, Olivia S.; Goodman, Oscar B.

doi:10.1158/1541-7786.mcr-14-0173

Cited by 77 publications

(61 citation statements)

References 50 publications

(46 reference statements)

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“…21,37 We observed clinical responses to olaparib in patients with metastatic, castration-resistant prostate cancer and defective PALB2 or HDAC2 . HDAC inhibition has been reported to result in sensitivity to PARP inhibition, 28,38 but the clinical relevance of HDAC genomic loss is not known.…”

Section: Discussionmentioning

confidence: 99%

DNA-Repair Defects and Olaparib in Metastatic Prostate Cancer

Carreira²,

et al. 2015

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BACKGROUND Prostate cancer is a heterogeneous disease, but current treatments are not based on molecular stratification. We hypothesized that metastatic, castration-resistant prostate cancers with DNA-repair defects would respond to poly(adenosine diphosphate [ADP]–ribose) polymerase (PARP) inhibition with olaparib. METHODS We conducted a phase 2 trial in which patients with metastatic, castration-resistant prostate cancer were treated with olaparib tablets at a dose of 400 mg twice a day. The primary end point was the response rate, defined either as an objective response according to Response Evaluation Criteria in Solid Tumors, version 1.1, or as a reduction of at least 50% in the prostate-specific antigen level or a confirmed reduction in the circulating tumor-cell count from 5 or more cells per 7.5 ml of blood to less than 5 cells per 7.5 ml. Targeted next-generation sequencing, exome and transcriptome analysis, and digital polymerase-chain-reaction testing were performed on samples from mandated tumor biopsies. RESULTS Overall, 50 patients were enrolled; all had received prior treatment with docetaxel, 49 (98%) had received abiraterone or enzalutamide, and 29 (58%) had received cabazitaxel. Sixteen of 49 patients who could be evaluated had a response (33%; 95% confidence interval, 20 to 48), with 12 patients receiving the study treatment for more than 6 months. Next-generation sequencing identified homozygous deletions, deleterious mutations, or both in DNA-repair genes — including BRCA1/2, ATM, Fanconi’s anemia genes, and CHEK2 — in 16 of 49 patients who could be evaluated (33%). Of these 16 patients, 14 (88%) had a response to olaparib, including all 7 patients with BRCA2 loss (4 with biallelic somatic loss, and 3 with germline mutations) and 4 of 5 with ATM aberrations. The specificity of the biomarker suite was 94%. Anemia (in 10 of the 50 patients [20%]) and fatigue (in 6 [12%]) were the most common grade 3 or 4 adverse events, findings that are consistent with previous studies of olaparib. CONCLUSIONS Treatment with the PARP inhibitor olaparib in patients whose prostate cancers were no longer responding to standard treatments and who had defects in DNA-repair genes led to a high response rate.

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Section: Discussionmentioning

confidence: 99%

DNA-Repair Defects and Olaparib in Metastatic Prostate Cancer

Carreira²,

et al. 2015

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“…The PARPs are a family of enzymes responsible for repairing single‐strand DNA breaks through base excision repair pathways (Figure ) . Olaparib inhibits the PARP1, PARP2, and PARP3 enzymes and exhibits antitumor effects by inhibiting the repair of DNA strand breaks, leading to an accumulation of DNA single‐strand breaks and, ultimately, cell death (Figure ) . DNA double‐strand breaks are repaired through two mechanisms: nonhomologous end joining, which is error prone, and homologous recombination (HR) .…”

Section: Olaparibmentioning

confidence: 99%

“…Olaparib inhibits the PARP1, PARP2, and PARP3 enzymes and exhibits antitumor effects by inhibiting the repair of DNA strand breaks, leading to an accumulation of DNA single‐strand breaks and, ultimately, cell death (Figure ) . DNA double‐strand breaks are repaired through two mechanisms: nonhomologous end joining, which is error prone, and homologous recombination (HR) . BRCA1/2 and RAD51 assist with DNA repair through HR, so mutations in these genes lead to inactivation of homologous DNA repair and accrual of double‐strand DNA breaks, making these cells sensitive to the effects of PARP inhibitors .…”

Section: Olaparibmentioning

confidence: 99%

A Novel Use of Olaparib for the Treatment of Metastatic Castration‐Recurrent Prostate Cancer

2017

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Although mortality from prostate cancer has declined over the past 20 years as a result of early detection and treatment, the 5-year survival rate for men with prostate cancer who develop metastatic disease is only 29%. Current treatment options for metastatic castration-recurrent prostate cancer (mCRPC) are associated with toxicity and a limited durable response; therefore, additional lines of efficacious and minimally toxic therapy are needed. Olaparib, a poly(adenosine 5'-diphosphate) ribose polymerase (PARP) inhibitor, received a U.S. Food and Drug Administration breakthrough therapy designation in January 2016 for the treatment of patients with BRCA1/2 or ATM gene-mutated mCRPC based on results of a compelling phase II trial of olaparib in patients with advanced castration-resistant prostate cancer (TOPARP-A). This study found that men with mCRPC and genetic mutations in DNA damage repair genes had an overall response rate of nearly 90% with olaparib treatment. In this review, we describe current therapies for mCRPC, the rationale for anti-PARP therapies, the pharmacology of olaparib for prostate cancer, clinical trials of olaparib for mCRPC, our clinical experience with olaparib for prostate cancer at a comprehensive cancer center, and future directions of olaparib for the treatment of mCRPC. Olaparib may constitute a promising treatment to prolong survival in patients with mCRPC, with an acceptable adverse effect profile. As the role of PARP inhibition in prostate cancer and other malignancies becomes further elucidated, olaparib may be shown to be beneficial for other patient populations.

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“…The SIAH2-dependent proteasomal degradation of NCOR may also contribute to cancer development and chemoresistance [12]. Since the pharmacological inhibition of NCOR-associated transcriptional repressors with HDACi blocks cancer-relevant signaling and the growth of transformed breast and prostate cells [25,[76][77][78][79], the elimination of NCOR by SIAH2 may affect the growth of such cells. Additional work is required to generate experimental support for this hypothesis.…”

Section: Tumor-relevant Targets Of Siahsmentioning

confidence: 99%