Analysis of the relationships between oxidative stress, DNA damage and sperm vitality in a patient population: development of diagnostic criteria
R. John Aitken,R. John Aitken,Geoffry N. De Iuliis,Jane M. Finnie,Andrew Hedges,Robert I McLachlan,Robert I McLachlan +6 more
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TLDR
The development of novel methods and optimized thresholds for diagnosing oxidative DNA damage in human spermatozoa should assist in the clinical management of this pathology.Abstract:
BACKGROUND: DNA damage in human spermatozoa is known to be associated with a variety of adverse clinical outcomes affecting both reproductive efficiency and the health and wellbeing of the offspring. However, the origin of this damage, its biochemical nature and strategies for its amelioration, still await resolution. METHODS: Using novel methods to simultaneously assess DNA fragmentation (modified TUNEL assay), DNA-base adduct formation (8-hydroxy-2'-deoxyguanosine [80HdG]) and cell vitality, spermatozoa from a cohort of 50 assisted conception patients were examined and compared with a group of donors. Receiver operating characteristic (ROC) curve analysis was then used to examine the frequency distribution of the data and to determine optimized thresholds for identifying patients exhibiting abnormally high levels of DNA damage. RESULTS: BOHdG formation and DNA fragmentation were highly correlated with each other and frequently associated with cell death. Percoll centrifugation improved sperm quality but, unexpectedly, increased BOHdG formation in live cells, as did sperm fractionation using Puresperm ® gradients. ROC analysis indicated that the frequency distribution of 8OHdG and DNA fragmentation data were significantly different between patients and donors (P < 0.001), permitting the development of thresholds that would allow the accurate diagnosis of DNA damage in the male germ line. CONCLUSION: The aetiology of DNA damage in spermatozoa involves a cascade of changes that progress from the induction of oxidative stress and oxidized DNA base adduct formation to DNA fragmentation and cell death. Preparation of spermatozoa on discontinuous density gradients aggravates the problem by stimulating the formation of 8OHdG in live cells. However, the development of novel methods and optimized thresholds for diagnosing oxidative DNA damage in human spermatozoa should assist in the clinical management of this pathology.read more
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Antioxidants for male subfertility
Marian Showell,Rebecca Mackenzie-Proctor,Julie Brown,Anusch Yazdani,Marcin T Stankiewicz,Roger Hart +5 more
TL;DR: This Cochrane review aimed to evaluate the effectiveness and safety of oral supplementation with antioxidants for subfertile male partners in couples seeking fertility assistance with a placebo, no treatment or another antioxidant.
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The role of sperm oxidative stress in male infertility and the significance of oral antioxidant therapy
TL;DR: Adequately powered, placebo-controlled comprehensive clinical trials are now required to establish a clear role for antioxidants in the prevention of oxidative stress in the male germ line, such that the clinical utility of this form of therapy becomes established once and for all.
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Reactive Oxygen Species and Sperm Function—In Sickness and In Health
TL;DR: Modulators of ROS generation by spermatozoa may have clinical utility in regulating the fertilizing capacity of these cells and preventing the development of antisperm immunity, and require a systematic evaluation of pro- and antioxidant strategies in vivo and in vitro.
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The role of oxidative stress and antioxidants in male fertility.
TL;DR: It is shown in vitro and in vivo that studies demonstrate many antioxidants possess a beneficial effect on fertility and, therefore, their use is recommended as supportive therapy for the treatment of infertility in men.
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Sperm DNA damage caused by oxidative stress: modifiable clinical, lifestyle and nutritional factors in male infertility.
TL;DR: DNA fragmentation is an important factor in the aetiology of male infertility, however it is still underevaluated and its inclusion in routine semen analysis is debated, and sources of oxidative stress should be thoroughly examined in men with high levels of DNA fragmentation and modified where possible.
References
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Oxidative stress and male infertility—a clinical perspective
TL;DR: This review will provide an overview of oxidative biochemistry related to sperm health and identify which men are most at risk of oxidative infertility, and outline methods available for diagnosing oxidative stress and the various treatments available.
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Generation of reactive oxygen species, lipid peroxidation, and human sperm function.
TL;DR: Results are consistent with a causative role for lipid peroxidation in the etiology of defective sperm function and also suggest a possible physiological role for the reactive oxygen species generated by human spermatozoa in mediating sperm-zona interaction.
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Cellular basis of defective sperm function and its association with the genesis of reactive oxygen species by human spermatozoa.
TL;DR: Studies with scavengers of reactive oxygen species revealed that, while reagents directed against singlet oxygen and the hydroxyl radical were without effect, cytochrome C reduced the response to A23187 by about 50%, suggesting that the superoxide anion radical is a major product of the activated human spermatozoon.
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Spontaneous lipid peroxidation and production of hydrogen peroxide and superoxide in human spermatozoa. Superoxide dismutase as major enzyme protectant against oxygen toxicity.
TL;DR: The results suggest that superoxide dismutase plays the major role in protecting human spermatozoa against lipid peroxidation, and the superoxide Dismutase activity of a fresh sperm sample appears to be a good predictor of the lifetime (up to the complete loss of motility) of that particular sample, and so may prove useful in semen analysis.