Abstract
Deletions of the AZFa region (AZoospermia Factor-a) region of the human Y chromosome cause irreversible spermatogenic failure that presents clinically in men as Sertoli-cell only (SCO) pathology of the testis. Deletions of the AZFa region typically encompass two genes: DDX3Y and USP9Y. However, human genetic evidence indicates that SCO is most tightly linked to deletion of DDX3Y and that deletions/mutations of USP9Y can be transmitted from one generation to the next. Here, we generated stable iPSC lines with AZFa deletions, tested complementation via introduction of DDX3Y, and assessed ability to form germ cells in vivo in a xenotransplantation model. We observed a quantifiable improvement in formation of germ cell like cells (GCLCs) from complemented donor iPSCs. Moreover, expression of UTF1, a prospermatogonial protein, was restored in cells complemented by introduction of DDX3Y on the AZFa background. Whole-genome RNA sequencing of purified GCLCs revealed an enrichment of genes involved in translational suppression and transcriptional control in DDX3Y-rescued GCLCs over mutant GCLCs, which maintained a molecular phenotype more similar to undifferentiated iPSCs. This study demonstrates the ability to probe fundamental genetics of human germ cell formation by complementation and indicates that DDX3Y functions in the earliest stages of human germ cell development.
Highlights
Infertility is common, affecting approximately 10–15% of couples with half of all cases involving a male factor[1,2]
Murine seminiferous tubules are able to induce germ cell formation from AZFa-deleted induced pluripotent stem cells (iPSCs), enabling studies to examine the function of AZFa genes in human germ cell development
We observed two significant differences in germ cell formation in AZFa-deleted cells relative to cells that were complemented with DDX3Y: first, we observed quantitative enhancement in germ cell like cells (GCLCs) formation and robust expression of human PGC proteins in all complemented lines, as well as a modest expression of two spermatogonial lineage proteins in rescued GCLCs
Summary
Infertility is common, affecting approximately 10–15% of couples with half of all cases involving a male factor[1,2]. The most common molecularly-defined cause of male infertility, characterized by production of few or no sperm, is the deletion of one or more AZoospermia Factor (AZF) regions of the Y chromosome[3,4,5]. It is presumed that DDX3Y protein function has diverged from DDX3X function in regulating germ cell development, and that its deletion is the primary factor responsible for azoospermia in men with AZFa deletions[13,17,18]. We demonstrated that AZFa-deleted iPSC lines formed the fewest germ cells in vivo and displayed differences in mRNA and protein expression relative to iPSCs from fertile men. We introduced the DDX3Y gene into the AZFa-deleted iPSC line and characterized and compared germ cell development in complemented iPSC lines
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