The hypoxia-inducible factor EPAS1 is required for spermatogonial stem cell function in regenerative conditions

In this study we explored the role of hypoxia and the hypoxia-inducible transcription factor EPAS1 in regulating spermatogonial stem cell (SSC) function in the mouse testis. We have demonstrated that SSCs reside in hypoxic microenvironments in the testis through utilization of the oxygen-sensing probe pimonidazole, and by confirming the stable presence of EPAS1, which is degraded at >5% O-2. Through the generation of a germline-specific Epas1 knockout mouse line, and through modulation of EPAS1 levels in primary cultures of spermatogonia with the small drug molecule Daprodustat, we have demonstrated that EPAS1 is required for robust SSC function in regenerative conditions (post-transplantation and post-chemotherapy), via the regulation of key cellular processes such as metabolism. These findings shed light on the relationship between hypoxia and male fertility and will potentially facilitate optimization of in vitro culture conditions for infertility treatment pipelines using SSCs, such as those directed at pediatric cancer survivors.

Automated summary

This study explores the role of hypoxia and the hypoxia-inducible transcription factor EPAS1 in regulating spermatogonial stem cell function in the mouse testis. The findings demonstrate that SSCs reside in hypoxic microenvironments and that EPAS1 is essential for robust SSC function in regenerative conditions. These findings shed light on the relationship between hypoxia and male fertility and may facilitate optimization of in vitro culture conditions for infertility treatment using SSCs, particularly for pediatric cancer survivors.