Vitamin D deficiency impairs testosterone secretion and spermatogenesis in mice: the role of the transsulfuration pathway-Reference-Cited by-同舟云学术

Vitamin D deficiency impairs testosterone secretion and spermatogenesis in mice: the role of the transsulfuration pathway

Published:2023-03-16 Issue: Volume: Page:
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Author:

Jamshidian-Ghalehsefidi Narges¹,Rabiee Farzaneh²,Tavalaee Marziyeh³,kiani Shaghayegh³,Pouriayevali Farnaz³,Razi Mazdak⁴,Dattilio Maurizio⁵,Nasr-Esfahani Mohammad Hossein³

Affiliation:

1. 1. ACECR Institute of Higher Education, Isfahan Branch, Isfahan, Iran.

2. 3. Department of Animal Biotechnology, Cell Science Research Center, Royan Institute for Biotechnology, ACECR, Isfahan, Iran.

3. 2. Department of Animal Biotechnology, Reproductive Biomedicine Research Center, Royan Institute for Biotechnology, ACECR, Isfahan, Iran.

4. 4. Faculty of Veterinary Medicine, Department of Histology, Urmia University, Urmia, Iran

5. 5. R&D Department, Parthenogen, Lugano, Switzerland.

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 are involved in transsulfuration pathway of 1-carbone metabolism, and spermatogenesis function. Therfore, 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 level 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

Research Square Platform LLC

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