Fertility & Reproduction (Dec 2023)
#289 : Mitochondrial Activator BGP-15 Protects Sperm from DNA Damage During Sperm Recovery for Assisted Reproductive Technology
Abstract
Background and Aims: The recovery of sperm by assisted reproductive technology (ART) results in significant DNA damage. Elevated levels of DNA damage in sperm have been linked to poor-quality embryos and increased pregnancy loss after ART. Therefore, in this study, we aimed to investigate potential of the new mitochondrial activator BGP-15 to prevent sperm DNA damage in an in vitroejaculate over time. Additionally, we sought to determine whether BGP-15 can preserve sperm quality during various sperm recovery techniques used in ART. Method: We incubated donated human semen specimens untreated or treated with BGP-15, then examined sperm motility and DNA damage (DNA fragmentation and oxidation). Semen samples were then processed using different clinical sperm recovery methods: simple wash (SW), swim-up (SU) and density gradient centrifugation (DGC); and the purified sperm underwent further analysis including motility, vitality, ROS levels, mitochondrial membrane integrity and mitochondrial membrane potential (MMP), and DNA damage. Results: Semen samples incubated with BGP-15 demonstrated improved sperm motility and reduced DNA damage levels. SW samples had the highest sperm count, while SU had the highest vitality and DNA integrity, but the lowest MMP. DGC sperm had increased MMP after BGP-15 Treatment. Although BGP-15 treatment only reduced sperm DNA fragmentation in SW samples, it reduced DNA oxidation in all recovery methods. Conclusion: Our findings indicate that clinical manipulation of patient semen samples can negatively impact sperm quality, and different sperm recovery methods have unique effects. However, the addition of BGP-15 to clinical processes can preserve sperm quality, potentially leading to improved embryo quality and ART success.
