Sperm head vacuoles are not affected by in-vitro conditions, as analysed by a system of sperm-microcapture channels

Abstract

Since the introduction of the motile sperm organelle morphology examination, there has been increasing recognition of the fact that the presence of large nuclear vacuoles might have deleterious effects on embryo development. Nevertheless, one fundamental question still being debated is whether specific in-vitro conditions during the handling of semen have an impact on vacuole formation. This study’s objective was to analyse whether incubation temperature (20, 37°C) or oxidative stress stimulates the formation of nuclear vacuoles. Furthermore, it examined whether vacuoles disappear in the presence of an acrosome reaction inducer. Therefore, a system of sperm-microcapture channels was developed to permit the observation of the same living spermatozoa over a period of 24h. Neither incubation at 37°C nor induction of oxidative stress led to de-novo formation of nuclear vacuoles. Induction of the acrosome reaction using calcium ionophore A23587 did not lead to any modifications in the proportion of spermatozoa with vacuoles or to the disappearance of pre-existing vacuoles. According to these observations, it is concluded that nuclear vacuoles on the sperm head are already produced at earlier stages of sperm maturation and are not induced or modulated by routine laboratory environments.The examination of spermatozoa at very high magnification has led to the increasingly widespread recognition that the presence of large vacuoles in the human sperm head has deleterious effects on embryo development. One fundamental question, however, still remains: do specific conditions in the laboratory during the preparation and the handling of semen have an impact on vacuole formation? Our initial objective was to analyse whether different incubation temperatures (20, 37°C) and the induction of oxidative stress lead to the formation of sperm head vacuoles. Furthermore, we examined whether vacuoles disappear in the presence of an acrosome reaction inducer. In order to do this we developed a system of sperm-microcapture channels, which permits the observation of the same living spermatozoa over a period of 24h. Incubation at 37°C or induction of oxidative stress did not lead to the formation of any new vacuoles. After inducing the acrosome reaction, we did not detect any modification in the proportion of vacuolated spermatozoa. According to our observations, different temperatures or environmental conditions in the laboratory have no impact on the formation or disappearance of vacuoles. We conclude that sperm head vacuoles are already produced at earlier stages of sperm maturation.