International Journal of Fertility and Sterility (Jan 2024)
Carbon Monoxide Exposure Does Not Improve The In Vitro Fertilization Rate of Oocytes Obtained from Heterozygous Hmox1 Knockout Mice
Abstract
In our experimental study, we explored the impact of maternal reduced heme oxygenase-1 (HO-1) gene (Hmox1)expression on the in vitro fertilization (IVF) rate through the use of heterozygous Hmox1 knockout mice models(HET/Hmox1+/ -). Also, we hypothesized a beneficial role of gametes exposure during fertilization to carbon monoxide(CO), one of HO-1 by-products, that might be relevant for the improvement of IVF rates. IVF technique wasperformed by using oocytes obtained from wild-type (WT) or Hmox1+/ - dams fertilized with WT, Hmox1+/ - orHmox1-/ - mice-derived sperm. The fertilization step occurred either in a conventional incubator (37°C, 5% CO2) or inan incubator implemented with CO (500 ppm). The superovulation yield of WT and Hmox1+/ - mice and the number offertilized oocytes was assessed using an optical microscope. The dams’ Hmox1 heterozygous knockout neither impactthe superovulation yield, nor did influence the fertilization success rate. Moreover, CO exposure during fertilizationcould not significantly improve the outcome. Our study showed that the maternal Hmox1+/ - condition is not affectingthe IVF rate in mice. Furthermore, we discovered that CO exposure cannot be exploited to ameliorate this critical stepof the IVF protocol.
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