Stem Cell Research (Apr 2022)
The netrin-1 receptor UNC5C contributes to the homeostasis of undifferentiated spermatogonia in adult mice
Abstract
In adult testis, the cell mobility is essential for spermatogonia differentiation and is suspected to regulate spermatogonial stem cell fate. Netrin-1 controls cell migration and/or survival according to the cellular context. Its involvement in some self-renewing lineages raises the possibility that Netrin-1 could have a role in spermatogenesis.We show that in addition to Sertoli cells, a fraction of murine undifferentiated spermatogonia express the Netrin-1 receptor UNC5c and that UNC5c contributes to spermatogonia differentiation. Receptor loss in Unc5crcm males leads to the concomitant accumulation of transit-amplifying progenitors and short syncytia of spermatogonia. Without altering cell death rates, the consequences of Unc5c loss worsen with age: the increase in quiescent undifferentiated progenitors associated with a higher spermatogonial stem cell enriched subset leads to the spermatocyte I decline. We demonstrate in vitro that Netrin-1 promotes a guidance effect as it repulses both undifferentiated and differentiating spermatogonia.Finally, we propose that UNC5c triggers undifferentiated spermatogonia adhesion/ migration and that the repulsive activity of Netrin-1 receptors could regulate spermatogonia differentiation, and maintain germ cell homeostasis.
