Background: Prolonging the shelf-life of liquid-preserved semen without compromising its fertilizing capacity may increase the efficiency of artificial insemination in pigs. Many fertilization-relevant processes are adenosine triphosphate dependent. The impact of semen storage and rewarming to body temperature on the energy status of spermatozoa is as yet unknown.
Objectives: To investigate the energy status of boar spermatozoa during storage and subsequent rewarming and to reveal the potential role of mitochondrial function for reactivation and maintenance of sperm motility.
Materials and methods: Extended semen samples (n = 7 boars) were used. Spermatozoa were challenged by storage at 17°C for 7 days and incubation at 38°C for 180 min. The adenosine triphosphate concentration and energy charge in semen samples and lactate concentration in the extracellular medium were assessed. Viability and mitochondrial activity were determined by flow cytometry, and clustered single-cell analysis of motility parameters was performed.
Results: The energy status was not affected by semen storage (p > 0.05). Rewarming resulted in a net reduction in adenosine triphosphate concentration, which increased with storage time (maximum Day 5: -24.2 ± 10.3%) but was not accompanied by a loss in viability, motility, or mitochondrial activity. Blocking glycolysis with 2-deoxy-d-glucose prevented the re-establishment of motility and mitochondrial activity after rewarming. Mitochondrial activity gradually subsided in virtually all spermatozoa during incubation at 38°C, while adenosine triphosphate and energy charge remained high. Concomitantly, extracellular lactate levels rose, and sperm populations with lower velocity, increased linearity, and low lateral head displacement grew larger. Size changes for major sperm subpopulations correlated with the percentage of viable spermatozoa with high mitochondrial activity (r = 0.44-0.70 for individual subpopulations, p < 0.01).
Conclusion: Storage of boar spermatozoa increases the demand of adenosine triphosphate for reactivation of spermatozoa towards fast, non-linear, and hyperactivation-like motility patterns upon rewarming. Maintenance of glycolysis seems to be decisive for sperm function after long-term storage in vitro.
Keywords: adenylate energy charge; cluster analysis; mitochondria; motility; semen preservation.
© 2022 The Authors. Andrology published by Wiley Periodicals LLC on behalf of American Society of Andrology and European Academy of Andrology.