MicroRNA-375 is a therapeutic target for castration-resistant prostate cancer through the PTPN4/STAT3 axis

Prostate cancer: stem cell treatment targets microRNA A microRNA shown to promote prostate cancer growth can be targeted through a treatment derived from stem cells. Prostate cancer is lethal for many men, and its growth is promoted by testosterone. However, some “castration-resistant” strains keep growing even after treatments that reduce testosterone levels. Xiaoyi Huang at Harbin Medical University Cancer Hospital, China, and co-workers examined the role of microRNA-375 in the progression of castration-resistant prostate cancer. They found that microRNA-375 was over-expressed in cancer tissue samples and promoted tumor growth by interfering with a specific signaling pathway. The team applied a treatment comprising extracellular vesicles called exosomes that are derived from human stem cells and loaded with molecules that suppress microRNA-375. The treatment inhibited microRNA-375 and thereby repressed the cancer growth, while also reducing the cancer’s resistance to the testosterone-blocking drug enzalutamide.