Abstract
Sertoli cell-only (SCO) syndrome is a severe form of human male infertility seemingly characterized by the lack all spermatogenic cells. However, tubules of some SCO testes contain small patches of active spermatogenesis and thus spermatogonial stem cells. We hypothesized that these stem cells cannot replicate and seed spermatogenesis in barren areas of tubule because as-of-yet unrecognized deficits in Sertoli cell gene expression disable most stem cell niches. Performing the first thorough comparison of the transcriptomes of human testes exhibiting complete spermatogenesis with the transcriptomes of testes with SCO syndrome, we defined transcripts that are both predominantly expressed by Sertoli cells and expressed at aberrant levels in SCO testes. Some of these transcripts encode proteins required for the proper assembly of adherent and gap junctions at sites of contact with other cells, including spermatogonial stem cells (SSCs). Other transcripts encode GDNF, FGF8 and BMP4, known regulators of mouse SSCs. Thus, most SCO Sertoli cells can neither organize junctions at normal sites of cell-cell contact nor stimulate SSCs with adequate levels of growth factors. We propose that the critical deficits in Sertoli cell gene expression we have identified contribute to the inability of spermatogonial stem cells within small patches of spermatogenesis in some SCO testes to seed spermatogenesis to adjacent areas of tubule that are barren of spermatogenesis. Furthermore, we predict that one or more of these deficits in gene expression are primary causes of human SCO syndrome.
Highlights
Infertility is a problem that besets approximately 15% of couples of childbearing age, with men being the sole cause of the couple’s infertility approximately one-third of the time [1]
To confirm that the threshold of 0.4 CPM noted above was a good choice for a cutoff in our whole transcriptome differential expression analysis, we examined the relationship between transcript expression and logFC (MA plot), as well as false discovery rate (FDR) p-value, and observed that there was no over-abundance of low-expression genes with apparent outlier logFC values that were being identified as differentially expressed
Replication and differentiation of spermatogonial stem cells (SSCs) are regulated by multiple growth factors, and our analyses demonstrated that glial cell line-derived neurotrophic factor (GDNF), FGF8 and BMP4 were expressed at abnormally low levels in Sertoli cell-only (SCO) testes
Summary
Infertility is a problem that besets approximately 15% of couples of childbearing age, with men being the sole cause of the couple’s infertility approximately one-third of the time [1]. A severe form of human male infertility is characterized histologically by the apparent lack of all spermatogenic cells in almost all seminiferous tubules, a condition called Sertoli cell-only (SCO) syndrome. THEC381#contact); Theresa Dow Wallace Fund (PNS) (https://www.nycommunitytrust.org/); Brady Urological Foundation (PNS, DAP) (https:// urology.weillcornell.org/). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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