Sperm DNA fragmentation influence on bovine in vitro embryo production

Sperm chromatin integrity is essential for the transmission of paternal genetic information. Changes in sperm DNA can lead to failures in the reproductive process. Loss of chromatin integrity may occur for several reasons, and the most important are apoptosis, protamine deficiency and damages caused by reactive oxygen species (ROS). The sperm DNA damage does not prevent the sperm to fertilize the oocyte, however it can cause embryonic loss by apoptosis. The importance of sperm chromatin integrity in embryonic development has been described in humans, and can be considered a cause of male infertility when it is disrupted. However, information on the influence of sperm DNA integrity in the process of fertilization and embryonic development in cattle are very scarce. Due to the lack of information on the relationship between DNA fragmentation and its consequence on embryonic development rates in this species, this study aimed to evaluate the sperm DNA fragmentation rate in a population of bulls and the influence of possible sperm DNA damage on in vitro production (IVP). For this, frozen semen from 221 bulls was evaluated by sperm chromatin structure assay (SCSA). After that, animals were divided into six groups, according to the DNA fragmentation rate observed. Then seven animals from each group were randomly chosen for sperm evaluation: motility, sperm DNA fragmentation by the SCSA and Alkaline Comet assay and oxidative stress by tiobarbituric acid reactive substances (TBARS). After sperm evaluations embryo IVP was performed. Cleavage and blastocyst rates were assessed and the obtained blastocysts were submitted to TUNEL assay for apoptosis evaluation. Regarding sperm motility, group 1 had lower motility compared to group 4 (p <0.05). There was no significant difference in motility between the other experimental groups. The SCSA revealed that group 1 showed lower susceptibility to sperm DNA fragmentation when compared to group 5 (p <0.05). Group 2 was less susceptible to sperm DNA fragmentation, when compared to groups 3, 4, 5 and 6 (p <0.05). For the alkaline comet assay, the assessment of oxidative stress and embryo IVP, no significant difference was shown between en experimental groups. Moreover, there was a negative correlation between the comet mean intensity and the blastocyst rate. The blastocyst rate also negatively correlated to the comet head mean intensity and TBARS. The TBARS was negatively correlated to cleavage rate. In addition, TBARS correlated positively to TUNEL assay and SCSA. Considering the experimental conditions, the sperm DNA fragmentation did not influence the IVP of bovine embryos. (AU)