Testicular germ cells can colonize sexually undifferentiated embryonic gonad and produce functional eggs in fish.

Understanding the mechanisms that regulate germ-cell development is crucial to reproductive medicine and animal production. Animal gametes originally derive from sexually undifferentiated primordial germ cells (PGCs), which develop into mitotic germ cells (oogonia or spermatogonia) before proceeding to meiosis [Wylie, C. (1999) Cell 96, 165-174]. Spermatogonia are thought to include a population of cells with stem cell activity, which proliferate throughout the lifespan of male animals and produce spermatozoa [Zhao, G. Q. & Garbers, D. L. (2002) Dev. Cell 2, 537-547]. However, the functional differences between PGCs and spermatogonial stem cells are poorly understood. Here we show that transplanted adult testicular germ cells can colonize sexually undifferentiated embryonic gonads and resume gametogenesis. Testicular germ cells containing spermatogonial stem cells isolated from adult male rainbow trout (Oncorhynchus mykiss) were transplanted into the peritoneal cavity of newly hatched embryos of both sexes, and the behavior of the donor cells was observed. The testicular germ cells differentiated into spermatozoa in male recipients and fully functional eggs in female recipients. Furthermore, the donor-derived spermatozoa and eggs obtained from the recipient fish were able to produce normal offspring. These findings indicate that fish testicular germ cells, probably spermatogonial stem cells, possess a high level of developmental plasticity and sexual bipotency, even after the animal reaches maturity. Furthermore, our results suggest that spermatogonial stem cells are at least partly functionally similar to PGCs.