Abstract
Shrub (CG8055) encodes the vps32/snf7 protein, a filament-forming subunit of the ESCRT (endosomal sorting complexes required for transport)-III complex involved in inward membrane budding. It was reported that shrub was required for abscission in female germline stem cells. In this study, we showed that the expression level of shrub in the testis was significantly higher than that in the ovary of 1-day-old Drosophila melanogaster, suggesting a role in male reproduction. Then we used nosGal4 driver to knockdown shrub specifically in the fly testis and found that this resulted in a significantly lower paternal effect egg hatch rate relative to the control group. Immunofluorescence staining showed that shrub knockdown in fly testes caused an accumulation of early-stage germ cells and lack of spectrin caps. In the late stages (spermiogenesis), the control testis contained multiple compacted spermatid bundles and individualization complexes (ICs) consisting of actin cones, whereas there were scattered spermatid nuclei and only a few ICs with disorganized actin cones in the shrub knockdown testis. Finally, the control seminal vesicle was full of mature sperms with needle-like heads, but in shrub knockdown testis 75% of seminal vesicles had no mature sperms. We also found that knockdown of shrub in fly testes led to upregulated expression of several cytoskeleton-associated genes, and an accumulation of ubiquitylated proteins. These results suggest that knockdown of shrub in fly testes might damage spermatogenesis by affecting transportability.
