Relationship between post-thaw adenosine triphosphate content, motility and viability in cryopreserved bovine semen applying two different preservation methods

Motility Subpopulations with Distinct Motility Characteristics Using Swim-Up-Selected Sperm Cells from Norwegian Red Bulls: Effects of Freezing-Thawing and Between-Bull Variation

Discrete subpopulations of motile sperm cells have been found for several species and are implicated to be important for sperm functionality. The aim of this present study was to examine the motile subpopulations in swim-up-selected bull spermatozoa and the relationship between subpopulations in fresh and frozen-thawed sperm cells. In experiment 1, swim-up (SWUP)-selected and non-selected (control) sperm cells were analyzed using a Computer-Assisted Sperm Analyzer (CASA). In experiment 2, the semen from nine bulls was cryopreserved and analyzed using CASA both before and after freezing and after incubation at physiological temperatures. The SWUP population had a higher proportion of total motility, progressivity, and velocity compared to the control (p < 0.05). Likewise, both incubation over time and cryopreservation affected motility and motility parameters (p < 0.05). The population of rapid progressive (RapidP) sperm cells dominated the SWUP fraction and was higher than in the control samples (p < 0.05). Furthermore, RapidP was also the main part of fresh semen, but decreased significantly over time during incubation and due to cryopreservation. In conclusion, RapidP was the main population in SWUP-selected spermatozoa and seems to be an important subpopulation contributing to the differences between treatments and in response to the freezing of sperm cells.

Effect of Zinc Supplementation on Urate Pathway Enzymes in Spermatozoa and Seminal Plasma of Iraqi Asthenozoospermic Patients: A Randomized Controlled Trial

Background

Uric acid (UA) is crucial for sperm metabolism as it protects seminal plasma against oxidative dam- age. Zinc also plays a central role in sperm metabolism. The current study was designed to investigate the role of zinc supplementation on qualitative and quantitative properties of seminal fluid, in parallel with the UA level and urate pathway enzymes in the semen of patients with asthenozoospermia.

Materials and Methods

The study was designed as a randomized controlled trial of 60 asthenozoospermic subfertile men. The current study, which was conducted during one year, involved 60 fertile and 60 asthenozoospermic subfertile men belonging to Hilla City, Iraq. Semen samples were obtained from the participants before and after treatment with zinc supplements. The levels of UA, xanthine oxidase (XO), adenosine deaminase (ADA) and 5'-nucleotidase (5'-NU) activities were determined in spermatozoa and seminal plasma of both groups.

Results

UA levels (P=0.034) and 5'-NU activity (P=0.046) were significantly lower but ADA (P=0.05) and XO (P=0.015) activities were significantly higher in infertile men than in healthy men. Treatment with zinc sulfate induced an increase in UA (P=0.001) level and 5'-NU activity (P=0.001), but a decrease in ADA (P=0.016) and XO (P=0.05) activities.

Conclusion

Zinc supplementation restores UA levels and the activities of enzymes involved in the urate pathway (XO and ADA) in the seminal plasma and spermatozoa of patients with asthenozoospermia, to reference values. Sup- plementation of Zn compounds enhances the qualitative and quantitative properties of semen (Registration number: NCT03361618).

The motility-based swim-up technique separates bull sperm based on differences in metabolic rates and tail length

Swim-up is a sperm purification method that is being used daily in andrology labs around the world as a simple step for in vitro sperm selection. This method accumulates the most motile sperm in the upper fraction and leaves sperm with low or no motility in the lower fraction. However, the underlying reasons are not fully understood. In this article, we compare metabolic rate, motility and sperm tail length of bovine sperm cells of the upper and lower fraction. The metabolic assay platform reveals oxygen consumption rates and extracellular acidification rates simultaneously and thereby delivers the metabolic rates in real time. Our study confirms that the upper fraction of bull sperm has not only improved motility compared to the cells in the lower fraction but also shows higher metabolic rates and longer flagella. This pattern was consistent across media of two different levels of viscosity. We conclude that the motility-based separation of the swim-up technique is also reflected in underlying metabolic differences. Metabolic assays could serve as additional or alternative, label-free method to evaluate sperm quality.

Comparison of sperm adenosine triphosphate content, motility and fertility of immobilized and conventionally cryopreserved Norwegian Red bull semen

Estrus detection and timing of AI remains a challenge in cattle breeding. Prolonging spermatozoa lifespan after AI, making sperm cells available over an extended period, could make timing of AI relative to ovulation less crucial and improve fertility. Immobilization of sperm cells by the patented SpermVital technology in an alginate gel will provide a gradual release of spermatozoa after AI. The first aim of this study was to examine fertility, measured as non-return rate after 56 days (NR56), of SpermVital (SV) processed semen with reduced sperm cell number per dose compared to earlier studies, and compare with conventionally processed semen in Biladyl, a proprietary version of the egg yolk Tris semen extender. The second aim was to examine in vitro sperm quality post-thaw and after thermal stress. The third aim was to examine potential correlations between in vitro sperm parameters and NR56. Ejaculates from 16 Norwegian Red young bulls were split in three, processed and cryopreserved as Biladyl semen (B15; 15 million spermatozoa/dose) or by SpermVital technology (SV25; 25 million spermatozoa/dose or SV15; 15 million spermatozoa/dose). 1400 semen doses were produced per bull and distributed throughout Norway for a blinded field trial. Fertility was recorded as NR56 after first AI (N = 7155). Two ejaculates from each bull were randomly selected for in vitro experiments. B15 and SV15 semen samples were analyzed for motility by computer-assisted sperm analysis, viability and acrosome integrity by flow cytometry and ATP content by bioluminescence assay, post-thaw and after thermal stress. The AI trial detected no differences in NR56; least square means being 75.5% (B15), 75.6% (SV25) and 74.8% (SV15) (p > 0.05). There were no differences in total motility and progressive motility post-thaw, however, after three hours incubation at 38 °C, SV sperm motility and progressivity were higher for SV15 than for B15 spermatozoa (p < 0.05). The percentage of acrosome intact live sperm cells was higher for SV15 than B15 spermatozoa at all timepoints analyzed (0 h, 3 h, 24 h, p < 0.05). B15 semen showed a higher ATP level than SV15 at 0 h (p < 0.05), while SV15 sperm cells had higher ATP levels after 3 and 24 h (p < 0.05). No association was detected between in vitro sperm parameters and NR56. In conclusion, SV15, SV25 and B15 semen yielded equal fertility after AI. However, there were differences in sperm quality, as SV15 spermatozoa displayed higher motility, viability and ATP levels after thermal stress than B15 spermatozoa (p < 0.05).