The magnetic cell separation method reveals protective effect of melatonin on human spermatozoa from peroxide-induced apoptosis

Abstract

AbstractBackgroundThe selection of non-apoptotic sperm is related to successful fertilization. This study investigated the protective effects of melatonin and the role of the MACS (magnetically activated cell sorting) method to prevent oxidative damage in vitro and improve sperm quality parameters such as viability and DNA integrity.Materials and methodsSemen analysis was performed on 20 different eligible donors participating in the study. Sperm viability and concentration were checked at time of 0 (0 h). In order to conduct more studies after 24 h (24 h), the remaining sperm suspension was divided into a control group and six experimental groups. DNA fragmentation was assessed using the TUNEL assay.ResultsThe treatment of human spermatozoa with 100 µM hydrogen peroxide for 24 h induced a significant increase in phosphatidylserine externalization and significantly increases apoptotic sperm (p ≤ 0.001). TUNEL analysis of human sperm pretreated with 100 µM hydrogen peroxide for 24 h showed that the percentage of sperm with fragmented DNA was significantly reduced after sorting by MACS (P ≤ 0.001). However, pretreated human sperm with 1 μM melatonin for 24 h could effectively maintain sperm motility and progressive motility.ConclusionsPretreated human spermatozoa with 1 µM melatonin for 24 h could be effective for maintenance of sperm motility and progressive motility. Although 100 µM hydrogen peroxide-treated sperm were used, MACS was used to retain the appropriate sperm and select high-quality sperm.