A basal stem cell signature identifies aggressive prostate cancer phenotypes.

Aggressive cancers often possess functional and molecular traits characteristic of stem cells. Specifically in prostate cancer, tumors of advanced metastatic disease overexpress certain stem cell associated genes and signaling pathways compared to localized disease. It is unclear if aggressive forms of prostate cancer resemble normal stem cells residing within the human prostate at the molecular level. Using a combination of cell sorting, next-generation sequencing, and computational methods, we profiled highly purified cell populations from the human prostate and showed that aggressive prostate cancer is enriched for a prostate basal stem cell signature. Sequencing data showed that the two cell populations (basal and luminal) were molecularly different with the basal population defined by genes associated with stem cell signaling programs and invasiveness. We developed a 91-gene basal stem cell signature and applied this signature to datasets from prostate cancer patients that varied in their disease progression. Late-stage metastatic prostate cancer was molecularly more stem cell-like than early-stage, localized prostate cancer. Interestingly within heavily treated prostate cancer metastases, subtypes had varying enrichment of the stem cell signature, with the highly aggressive small cell neuroendocrine carcinoma being the most stem cell-like. We further found that this aggressive subtype and the normal prostate basal stem cell share a core set of genetic qualities. Taken together, our results suggest that targeting normal stem cell traits could potentially be a new strategy for treating advanced prostate cancer.