EAF2 loss induces prostatic intraepithelial neoplasia from luminal epithelial cells in mice.

Defining the cell of origin for prostatic carcinogenesis is fundamentally important for understanding the mechanisms leading to prostate cancer. Lineage tracing studies have demonstrated that luminal epithelial cells are capable of self-replication in multiple organs, including the adult murine prostate, and cell of prostate cancer origin studies have shown that while both the luminal and basal murine prostate epithelial cells are capable of neoplastic transformation, luminal cells are more efficient as the origin of prostate cancer. ELL-associated factor 2 (EAF2) is an androgen responsive tumor suppressive protein expressed by prostate luminal epithelial cells that is frequently down-regulated in primary prostate tumors. EAF2 knockdown induces prostate cancer cell proliferation and invasion in vitro and mice with Eaf2 deficiency develop epithelial hyperplasia and murine prostatic intraepithelial neoplasia (mPIN) lesions. Here, we utilized an Eaf2 knockout, PSA-CreERT2 transgenic model crossed with a fluorescent reporter line to show that Eaf2 deficiency induces mPIN lesions derived from the luminal cell lineage. These results suggest that PIN lesions in the Eaf2 knockout mouse were derived from prostate luminal epithelial cells, further suggesting that the prostatic luminal epithelial cell is the major origin of prostate carcinogenesis.