Loss of livestock breeding efficiency due to uncompensable sperm nuclear defects.

An important goal of modern analyses of semen is to elucidate the molecular traits of mammalian sperm chromatin structural abnormalities, defined here as 'uncompensable', that lead to abnormalities in fertility, pronuclear formation, early embryo quality and pregnancy outcome. Sperm with uncompensable nuclear abnormalities are able to fertilize oocytes both in vivo and in vitro; however, due to the uncompensable trait(s), the embryo development may be abnormal. Uncompensable nuclear traits can be experimentally induced in bull sperm by a mild thermal insult to the testis. Sperm nuclear morphology abnormalities seen in ejaculates 11-days post stress are likely related to molecular changes in chromatin observed 3-days post stress by the flow cytometric sperm chromatin structure assay (SCSA). The SCSA measures the susceptibility of sperm nuclear DNA to denaturation in situ. This susceptibility has been correlated with the presence of DNA strand breaks that may be derived in part by oxidative stress and possibly by a unique, abortive apoptotic mechanism. The extent of DNA denaturation is not significantly related to the level of disulfide bonding between the chromatin protamines. The use of human sperm with uncompensable nuclear traits for artificial reproductive techniques is also discussed. The goal of this research is to remove from semen doses those sperm with uncompensable nuclear traits and thereby increase male fertility potential.