SOX17-positive rete testis epithelium is required for Sertoli valve formation and normal spermiogenesis in the male mouse.
Aya UchidaKenya ImaimatsuHonoka SuzukiXiao HanHiroki UshiodaMami UemuraKasane Imura-KishiRyuji HiramatsuHinako M TakaseYoshikazu HirateAtsuo OguraMasami Kanai-AzumaAkihiko KudoYoshiakira KanaiPublished in: Nature communications (2022)
Seminiferous tubules (STs) in the mammalian testes are connected to the rete testis (RT) via a Sertoli valve (SV). Spermatozoa produced in the STs are released into the tubular luminal fluid and passively transported through the SV into the RT. However, the physiological functions of the RT and SV remain unclear. Here, we identified the expression of Sox17 in RT epithelia. The SV valve was disrupted before puberty in RT-specific Sox17 conditional knockout (Sox17-cKO) male mice. This induced a backflow of RT fluid into the STs, which caused aberrant detachment of immature spermatids. RT of Sox17-cKO mice had reduced expression levels of various growth factor genes, which presumably support SV formation. When transplanted next to the Sox17 + RT, Sertoli cells of Sox17-cKO mice reconstructed the SV and supported proper spermiogenesis in the STs. This study highlights the novel and unexpected modulatory roles of the RT in SV valve formation and spermatogenesis in mouse testes, as a downstream action of Sox17.
Keyphrases
- transcription factor
- stem cells
- aortic valve
- growth factor
- mitral valve
- poor prognosis
- aortic stenosis
- type diabetes
- induced apoptosis
- heart failure
- gene expression
- oxidative stress
- atrial fibrillation
- adipose tissue
- coronary artery disease
- insulin resistance
- long non coding rna
- transcatheter aortic valve replacement
- high fat diet induced
- endoplasmic reticulum stress
- endothelial cells
- wild type
- cell cycle arrest
- diabetic rats