Low dose of cyclosporine A disrupts sperm parameters and testosterone levels reversibly in mice.

The prevalence of autoimmune diseases has increased worldwide, including in men of reproductive age. Cyclosporine A (CsA) is an immunosuppressive drug commonly used for long periods in the prophylaxis and treatment of autoimmune dysfunction and transplant rejection. Owing to CsA toxicity, most clinical settings use lower CsA doses. Therefore, we evaluated whether a low dose (10 mg/kg) of CsA affects sperm parameters (daily sperm production, motility, morphology, mitochondrial activity, and acrosomal integrity), plasma testosterone levels, and fertility after short-term (10 days) and long-term (50 days) treatments in mice. Short-term CsA treatment partially affected sperm parameters and fertility, as shown by the reduction in sperm hyperactivation and gestational rate 10 days after the interruption of short-term CsA treatment. Long-term CsA treatment impairs sperm count, hyperactivated motility, and acrosomal integrity. This treatment regimen further decreased plasma testosterone concentrations but did not affect reproductive outcomes in mating trials. These outcomes were reversed 50 days after the interruption of long-term CsA treatment. We conclude that a low CsA dose differentially impairs sperm parameters and testicular steroidogenesis in a time-dependent and mostly reversible manner but does not affect male fertility.

Epididymal protease inhibitor (EPPIN) is a protein hub for seminal vesicle-secreted protein SVS2 binding in mouse spermatozoa.

EPPIN is a sperm-surface drug target for male contraception. Here we investigated EPPIN-interacting proteins in mouse spermatozoa. We showed that EPPIN is an androgen-dependent gene, expressed in the testis and epididymis, but also present in the vas deferens, seminal vesicle and adrenal gland. Mature spermatozoa presented EPPIN staining on the head and flagellum. Immunoprecipitation of EPPIN from spermatozoa pre-incubated with seminal vesicle fluid (SVF) followed by LC-MS/MS or Western blot revealed the co-immunoprecipitation of SVS2, SVS3A, SVS5 and SVS6. In silico and Far-Western blot approaches demonstrated that EPPIN binds SVS2 in a protein network with other SVS proteins. Immunofluorescence using spermatozoa pre-incubated with SVF or recombinant SVS2 demonstrated the co-localization of EPPIN and SVS2 both on sperm head and flagellum. Our data show that EPPIN's roles in sperm function are conserved between mouse and human, demonstrating that the mouse is a suitable experimental model for translational studies on EPPIN.