Genomic attributes of prostate cancer across primary and metastatic noncastrate and castrate resistant disease states: a next generation sequencing study of 183 patients.
Surendra DasariMichael R McCarthyAntonina A WojcikBeth A PitelArpan SamaddarBurak TekinRumeal D WhaleyAditya RaghunathanLoren Herrera HernandezRafael E JimenezBrad J StishR Houston ThompsonBradley C LeibovichStephen A BoorjianR Jeffrey KarnesDaniel S ChildsJ Fernando QuevedoEugene D KwonLance C PagliaroBrian A CostelloKevin C HallingJohn C ChevilleBenjamin R KippSounak GuptaPublished in: Prostate cancer and prostatic diseases (2024)
Primary prostatic adenocarcinoma (pPC) undergoes genomic evolution secondary to therapy-related selection pressures as it transitions to metastatic noncastrate (mNC-PC) and castrate resistant (mCR-PC) disease. Next generation sequencing results were evaluated for pPC (n = 97), locally advanced disease (involving urinary bladder/rectum, n = 12), mNC-PC (n = 21), and mCR-PC (n = 54). We identified enrichment of TP53 alterations in high-grade pPC, TP53/RB1 alterations in HGNE disease, and AR alterations in metastatic and castrate resistant disease. Actionable alterations (MSI-H phenotype and HRR genes) were identified in approximately a fifth of all cases. These results help elucidate the landscape of genomic alterations across the clinical spectrum of prostate cancer.