DRG Mutations in Prostate Cancer: a Guiding Light for Enhanced Screening and Personalised Therapy

Prostate cancer (PCa) represents the most commonly diagnosed cancer in men and the second most common cause of cancer death in Western countries. It is estimated that 5-10% of PCa cases correlate with an inherited susceptibility to the disease. Mutations in DNA-repair genes (DRGs) were found in approximately 5% of localized PCa and in 12% of metastatic castration-resistant PCa. There is an unmet clinical need to identify high risk population and distinguish truly indolent localized cancers from progressive and potentially lethal disease, which will most benefit from early diagnosis and targeted therapies, in order to avoid underdiagnosis and undertreatment in such patients. We will test whether a dedicated screening in carriers of a DRG mutation can be more effective in early detection of aggressive PCa than the current approach (PSA), increasing the number of curable diseases.

Participants will be selected according to two strategies: 1) male consanguineous relatives of women with BRCA1/2+ and/or DRG+ cancer, 2) male consanguineous relatives of men with PCa positive for a mutation in a DRG. Strategy 1 will take advantage of the large cohort of breast/ovarian cancer patients referring to our Center. Strategy 2 will involve the mutational screening by targeted NGS of DRGs on biopsy/surgical specimens with histologically-confirmed PCa and Bladder cancer (BC).

This is a monocentric, prospective study, designed to evaluate the sensitivity of a targeted screening in men at higher genetic risk for PCa because carriers of pathogenic mutations in a DNA repair gene. The study will be entirely conducted at the Istituto Clinico Humanitas throughout the collaboration of the Oncology, Urology, Pathology, Radiology Departments with the Laboratory of Medical Genetics and RNA Biology of Humanitas University

Study participants will be genetically screened for the DRG mutation they are likely to have and positive individuals will be monitored by digital rectal examination (DRE) and checking Prostate Health Index (PHI). Patients with positive DRE will receive a prostate biopsy, the others will be tested for PHI. In case of PHI>40, patients will receive an mpMRI, according to EAU guideline, and a systematic prostate biopsy plus a software fusion-guided target biopsy if mpMRI showed at least a PIRADS>2 lesion. In case of PHI 20-40, patients will undergo mpMRI and fusion-guided target biopsy when PIRADS>2 plus systematic random biopsy. Patients with a negative mpMRI (PIRADS<3) will be screened by PHI/DRE annually. In case of PHI<20, patients will be screened by DRE/PHI annually. In case of biopsy positive for PCa, patients will be consulted for precision therapy. Correlation of pathological data and clinical outcome with molecular characteristics in patients identified by our enhanced screening and in those selected by NGS analysis (i.e. positive for a DRG mutation). The latter will be follow-up as benchmark for understanding the clinical course of PCa with DRG defects

1. Select a cohort of "healthy" men with a DRG mutation and enroll them in a target screening program for early PCa detection.

2. Demonstrate that the identification of high-risk individuals can: i) detect undiagnosed PCas, ii) improve early diagnosis, iii) impact on clinical management (PARP inhibitors, immunotherapy).

3. Better understand the molecular and clinical characteristics of PCa associated with DRG defects

   • Determine the clinically significant percentage of PCa in total prostatic neoplasms;
   • Compliance to attend the "enhanced" screening (Descriptive analysis);
   • Stratification according to age at diagnosis of PCa (Descriptive analysis);
   • Correlation with pathological outcome in patients who will undergo to radical prostatectomy (Descriptive analysis + comparative analysis: ANOVA):
   • Incidence of biochemical recurrence (BCR) (Descriptive analysis)
   • Correlation of pathological data and clinical outcome (BCR) with molecular characteristics in both patients identified by our enhanced screening and those identified by the NGS analysis (i.e. positive for a DRG mutation) (Descriptive analysis + KM curves recurrence fre-survival or progression to Metastasis free survival)
   • Comparison of the mutational burden in DRG mutation positive vs. DRG mutation negative PCa (Descriptive analysis).

The responsible investigator will ensure that this study is conducted in agreement with either the Declaration of Helsinki (Tokyo, Venice, Hong Kong and Somerset West amendments) or the laws and regulations of the country, whichever provides the greatest protection of the patient. The protocol has been written, and the study will be conducted according to the ICH Guideline for Good Clinical Practice. The protocol and its annexes are subject to review and approval by the competent Independent Ethics Committee(s) ("IEC") We expect that our screening strategy will increase the rate of early diagnosis of aggressive PCa in high-risk patients and will provide useful information for targeted therapy..