Abstract
AbstractVitamin D deficiency is a global health problem and has been linked to defective spermatogenesis and male infertility. In this study, we aimed to investigate the main enzymes involved in the transsulfuration pathway of 1-carbon metabolism, and spermatogenesis function. Therefore, sixteen male C57 mice were addressed to a control (standard diet) or vitamin D deficient (VDD) diet for 14 weeks. The results show that compared to the standard diet, VDD increased final body weight and reduced sperm quality, caused damage to the testicular structure, and decreased the serum levels of testosterone. In addition, serum concentrations of homocysteine, vitamin B12, and sperm oxidative stress markers increased. In testicular tissues, the CBS and CSE protein levels were down-regulated whereas HO-1 was up-regulated at both mRNA and protein expression levels. Within a mice deprivation model, VDD deeply suppressed testosterone and impaired spermatogenesis with oxidative stress-mediated mechanisms. The effects of the deprivation appeared to be at least in part independent of genomic and receptor-mediated vitamin D actions and suggest a specific impairment of the alternative transsulfuration pathway.
Publisher
Springer Science and Business Media LLC
Reference68 articles.
1. Lerchbaum, E. & Obermayer-Pietsch, B. Vitamin D and fertility: A systematic review. Eur. J. Endocrinol. 166(5), 765–778 (2012).
2. Jueraitetibaike, K. et al. The effect of vitamin D on sperm motility and the underlying mechanism. Asian J. Androl. 21(4), 400–407 (2019).
3. Banks, N. et al. Male vitamin D status and male factor infertility. Fertil. Steril. 116(4), 973–979 (2021).
4. Jensen, M. B. et al. Vitamin D metabolism and effects on pluripotency genes and cell differentiation in testicular germ cell tumors in vitro and in vivo. Neoplasia 14(10), 952-IN18 (2012).
5. Blomberg Jensen, M. et al. Vitamin D receptor and vitamin D metabolizing enzymes are expressed in the human male reproductive tract. Hum. Reprod. 25(5), 1303–1311 (2010).