Age-related activity of Poly (ADP-Ribose) Polymerase (PARP) in men with localized prostate cancer

Abstract

Mutations in DNA repair genes have been connected with familial prostate cancer and sensitivity to targeted drugs like PARP-inhibitors. Clinical use of this information is limited by the small fraction of prostate cancer risk gene carriers, variants of unknown pathogenicity and the focus on monogenic disease mechanisms. Functional assays capturing mono- and polygenic defects were shown to detect breast and ovarian cancer risk in blood-derived cells. Here, we comparatively analyzed lymphocytes from prostate cancer patients and controls applying a sensitive DNA double-strand break (DSB) repair assay and a flow cytometrybased assay measuring the activity of Poly(ADP-Ribose)-Polymerase, a target in treatment of metastatic prostate cancer. Contrary to breast and ovarian cancer patients, error-prone DNA double-strand break repair was not activated in prostate cancer patients. Yet, the activity of PARP discriminated between prostate cancer cases and controls. PARylation also correlated with the age of male probands, suggesting male-specific links between mutation-based and aging-associated DNA damage accumulation and PARP. Our work identifies prostate cancer-specific DNA repair phenotypes characterized by increased PARP activities and carboplatin-sensitivities, detected by functional testing of lymphocytes. This provides new insights for further investigation of PARP and carboplatin sensitivity as biomarkers in peripheral cells of men and prostate cancer patients.