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- Title
Glutathione and hypotaurine in vitro: effects on human sperm motility, DNA integrity and production of reactive oxygen species.
- Authors
Donnelly, Eilish T.; Mcclure, Neil; Lewis, Sheena E.M.
- Abstract
Sperm DNA integrity is of paramount importance for the accurate conveyance of genetic material. DNA damage may be a major contributory factor in male infertility as DNA from sperm of infertile men has been found to be more susceptible to induced DNA damage in vitro than DNA from fertile men. Reactive oxygen species (ROS) are a significant source of DNA damage and human sperm are extremely sensitive to ROS attack due to their high content of polyunsaturated fatty acids and lack of capacity for DNA repair. Seminal plasma, which contains a wealth of antioxidants, provides sperm with crucial protection against oxidative insult. However, during preparation for use in assisted conception techniques, sperm are separated from seminal plasma and deprived of that essential protection. The aim of this study was to determine the effects of supplementation with glutathione and hypotaurine during sperm preparation on subsequent sperm motility, DNA integrity, induced DNA damage and ROS generation. Semen samples (n = 45) were divided into aliquots and prepared by Percoll density centrifugation (95.0–47.5%) using medium which had been supplemented with these antioxidants to a number of different concentrations all within physiological levels. Control aliquots were included which had no glutathione or hypotaurine added. Sperm motility was determined using computer-assisted semen analysis. DNA damage was induced using H2O2 and DNA integrity was determined using a modified alkaline single cell gel electrophoresis (Comet) assay, while ROS generation was measured using chemiluminescence. Addition of glutathione and hypotaurine, either singly or in combination, to sperm preparation medium had no significant effect on sperm progressive motility or baseline DNA integrity. Despite this, sperm were still afforded significant protection against H2O2-induced damage and ROS generation.
- Subjects
DNA damage; REACTIVE oxygen species; SPERMATOZOA; UNSATURATED fatty acids; SEMINAL proteins; GLUTATHIONE; CENTRIFUGATION; CHEMILUMINESCENT diagnosis
- Publication
Mutagenesis, 2000, Vol 15, Issue 1, p61
- ISSN
0267-8357
- Publication type
Article
- DOI
10.1093/mutage/15.1.61