Spatial and temporal expression analysis of BMP signal modifiers, Smoc1 and Smoc2, from postnatal to adult developmental stages in the mouse testis.

Smoc1 and Smoc2, members of the SPARC family of genes, encode signaling molecules downstream of growth factors such as the TGF-β, FGF, and PDGF families. Smoc1 has been implicated in playing a crucial role in microphthalmia with limb anomalies in humans and mice, while Smoc2 deficiency causes dental developmental defects. Although developmental cytokines/growth factors including TGF-β superfamily have been shown to play critical roles in postnatal spermatogenesis, there are no reports analyzing the spatial and temporal expression of Smoc1 and Smoc2 in the postnatal testis.

The non-canonical bivalent gene Wfdc15a controls spermatogenic protease and immune homeostasis.

Male infertility can be caused by chromosomal abnormalities, mutations and epigenetic defects. Epigenetic modifiers pre-program hundreds of spermatogenic genes in spermatogonial stem cells (SSCs) for expression later in spermatids, but it remains mostly unclear whether and how those genes are involved in fertility. Here, we report that Wfdc15a, a WFDC family protease inhibitor pre-programmed by KMT2B, is essential for spermatogenesis.

A behind-the-scenes role of BDNF in the survival and differentiation of spermatogonia.

Mouse spermatogenesis entails the maintenance and self-renewal of spermatogonial stem cells (SSCs), which require a complex web-like signaling network transduced by various cytokines. Although brain-derived neurotrophic factor (BDNF) is expressed in Sertoli cells in the testis, and its receptor tropomyosin receptor kinase B (TrkB) is expressed in the spermatogonial population containing SSCs, potential functions of BDNF for spermatogenesis have not been uncovered. Here, we generate BDNF conditional knockout mice and find that BDNF is dispensable for in vivo spermatogenesis and fertility.