Changes in rat spermatozoa function after cooling,cryopreservation and centrifugation processes

Rat sperm cryopreservation is an effective method of archiving valuable strains for biomedical research and handling of rat spermatozoa is very important for successful cryopreservation. The aim of this study was to evaluate changes in rat sperm function during cryopreservation and centrifugation. Epididymal rat spermatozoa were subjected to cooling and freezing–thawing processes and then motility, plasma membrane integrity (PMI), mitochondrial membrane potential (MMP) and reactive oxygen species (ROS) were compared before and after minimum centrifugation force (200×g). Cryopreservation decreased sperm motility, PMI, and MMP (P < 0.05). Basal (without ROS inducer, tert-butyl hydroperoxide [TBHP] treatment) and stimulated ROS (with TBHP treatment) were increased in viable cooled spermatozoa compared to viable fresh spermatozoa (P < 0.01), with equal susceptibility to TBHP among fresh, cooled, and frozen–thawed spermatozoa. Centrifugation decreased motility and PMI of frozen–thawed spermatozoa (P < 0.05). Centrifugation decreased basal ROS of all spermatozoa (P < 0.01), while it led to higher susceptibility to TBHP in viable cooled spermatozoa, showing higher increased fold in ROS and decreased rate in viability by TBHP in viable cooled spermatozoa (P < 0.05). Cooling process was the major step of ROS generation, with loss in sperm motility, PMI, and MMP. Centrifugation affected function of cryopreserved spermatozoa. These data suggest that centrifugation makes rat spermatozoa susceptible to external ROS source, in particular during cooling process. Thus, protection from ROS damage and minimizing centrifugation should be considered during cryopreservation and post-thaw use of cryopreserved epididymal rat spermatozoa.     

Cryopreservation-induced alterations in protein tyrosine phosphorylation of spermatozoa from different portions of the boar ejaculate

Previous studies have shown that boar sperm quality after cryopreservation differs depending on the ejaculate fraction used and that spermatozoa contained in the first 10 mL (P1) of the sperm-rich fraction (SRF) show better cryosurvival than those in the SRF-P1. Since protein tyrosine phosphorylation (PTP) in spermatozoa is related with the tolerance of spermatozoa to frozen storage and cryocapacitation, we assessed the dynamics of cryopreservation-induced PTP and intracellular calcium ([Ca²⁺]i) in spermatozoa, using flow cytometry, from P1 and SRF-P1 of the boar ejaculate at different stages of cryopreservation. Sperm kinetics, assessed using a computer-assisted semen analyzer, did not differ between P1 and SRF-P1 during cryopreservation but the decrease in sperm velocity during cryopreservation was significant (P < 0.05) in SRF-P1 compared to P1. There were no significant differences in percentages of spermatozoa with high [Ca²⁺]i between P1 and SRF-P1 in fresh as well as in frozen–thawed semen. A higher (P < 0.001) proportion of spermatozoa displayed PTP during the course of cryopreservation indicating a definite effect of the cryopreservation process on sperm PTP. The proportion of spermatozoa with PTP did not differ significantly between portions of the boar ejaculate. However at any given step during cryopreservation the percentage of spermatozoa with PTP was comparatively higher in SRF-P1 than P1. A 32 kDa tyrosine phosphorylated protein, associated with capacitation, appeared after cooling suggesting that cooling induces capacitation-like changes in boar spermatozoa. In conclusion, the study has shown that the cryopreservation process induced PTP in spermatozoa and their proportions were similar between portions of SRF.     

Full-term development of rats from oocytes fertilized in vitro using cryopreserved ejaculated sperm

For preservation of rat spermatozoa, the general-purpose method requires that the male be sacrificed for collection of spermatozoa from the epididymides. However, it would be highly useful if the ejaculated spermatozoa could be successfully cryopreserved and the frozen–thawed spermatozoa used for in vitro fertilization, since this would allow the genetically valuable rats to be maintained alive rather than sacrificed. The aim of the present study was to clarify whether ejaculated rat spermatozoa could be successfully cryopreserved and fertilized in vitro. The motility and viability of frozen–thawed ejaculated spermatozoa were similar to those of frozen–thawed epididymal spermatozoa (around 10%). The percentage of acrosomal integrity in epididymal spermatozoa was significantly higher than that in ejaculated spermatozoa after freezing/thawing. The level of capacitation-associated protein tyrosine phosphorylation in frozen–thawed ejaculated sperm was slightly increased at 5 h. When the frozen–thawed ejaculated spermatozoa were used for in vitro fertilization, the percentages of fertilization, pronuclear formation, and development to the 2-cell stage (26.5%, 23.0%, and 91.0%, respectively) were similar to those of frozen–thawed epididymal spermatozoa (19.4%, 15.0%, and 84.1%, respectively). However, the rate of blastocyst formation in the ejaculated group was significantly lower than that in the epididymal group (12.0% vs 43.2%). Results from the embryo transfer experiment showed that the proportions of embryos developed to term were similar between the ejaculated (47.7%) and epididymal groups (53.7%). We showed here for the first time that ejaculated spermatozoa can be cryopreserved and the frozen–thawed sperm could be developed to term via in vitro fertilization in rats.     

A novel method for cryopreservation of individual human spermatozoa

The purpose of this study is to develop a novel method for the cryopreservation and efficient post-thaw recovery of individual or small numbers of human spermatozoa. Spermatozoa equilibrated in cryoprotectant buffer were injected with an intracytoplasmic sperm injection (ICSI) needle into a droplet of cryoprotectant on a homemade cryoleaf. The droplet was of cryoprotectant and seminal plasma at a ratio of 1:1. The sperm-loaded cryoleaf was slowly lowered over and stored in liquid nitrogen. Spermatozoa were thawed in a 37°C oil bath without dilution and centrifugation. To test the fertilizing ability of these spermatozoa, the recovered spermatozoa were injected by ICSI into 1-d-old or in vitro-matured human oocytes. Fresh spermatozoa from the same semen samples served as controls. The trials were performed in two separate experiments. In the first set of experiments, 92 spermatozoa were thawed and carefully investigated. The spermatozoa from percutaneous epididymal sperm aspiration had a motility recovery of 92.9% (13/14); ejaculated spermatozoa had a motility recovery of 61.5% (48/78), and only 1.3% (1/78) was lost. Together in the first and second set of experiments, the fertilization rates for the fresh and frozen–thawed spermatozoa were 67.6% (25/37) and 60.6% (40/66), respectively (P = 0.052). The mean embryo cleavage rates in the fresh and frozen–thawed groups were 88% (22/25) and 85% (34/40), respectively (P = 0.990). This cryopreservation method for individual or small numbers of human spermatozoa was efficient and simple. These findings make this method a promising technique for the clinical application of ejaculated sperm from oligozoospermic patients.     

Influence of recovery method and microbial contamination on the response to freezing–thawing in ibex (Capra pyrenaica) epididymal spermatozoa

The method of sperm recovery may influence the initial quality of sperm samples and their response to freezing–thawing. The aim of the present work was to compare two methods for collecting epididymal spermatozoa in order to improve the quality of recovered sperm and reduce possible contamination. Testes were obtained from 23 legally hunted, adult ibex males. The sperm mass of the right epididymis was collected by small longitudinal and transverse cuts made in the cauda epididymidis. The sperm mass of the left epididymis was collected by retrograde flushing from the vas deferens to the cauda epididymidis (using a cannula), employing a Tris, citric acid, glucose, egg yolk-based medium. The flushing method recovered more spermatozoa (P < 0.001) than the cutting method. After freezing–thawing, greater acrosomes damage (P < 0.001) and more morphological abnormalities (P < 0.05) were seen among the sperm cells recovered by the cutting method than among those obtained by retrograde flushing. The method of sperm recovery did not, however, influence the microbial contamination rate. In frozen–thawed samples that were microbially contaminated, motility was significantly reduced (P < 0.05) and membrane integrity tended to be poorer (P = 0.06). In conclusion, retrograde flushing is recommended for ibex sperm collection since it would appear that microbial contamination is no more of a problem than that encountered with the cutting method, while a larger number of sperm cells more resistant to freezing–thawing can be obtained.     

Rosmarinic acid improves function and in vitro fertilising ability of boar sperm after cryopreservation

During cryopreservation, oxidative stress exerts physical and chemical changes on sperm functionality. In the present study we investigated the antioxidant effect of rosmarinic acid (RA) on quality and fertilising ability of frozen–thawed boar spermatozoa. Ejaculates collected from mature boar were cryopreserved in lactose–egg yolk buffer supplemented with different concentrations of RA (0 μM, 26.25 μM, 52.5 μM and 105 μM). Motion parameters, acrosome and plasma membrane integrity, lipoperoxidation levels, DNA oxidative damage (8-hydroxy-2-deoxyguanosine base lesion) and in vitro fertilisation ability were evaluated. Total and progressive motility were significantly higher in experimental extenders with RA than in the control (P < 0.05) at 0 and 120 min post-thawing. The plasma and acrosomal membrane integrity were improved by supplementation with 105 μM RA (P < 0.05). Negative correlation between RA and malondialdehyde (MDA) concentration were determined (P < 0.05). After thawing, the percentage of spermatozoa with oxidised DNA did not differ between extenders, however, at 120 and 240 min post-thawing, the samples supplemented with 105 μM RA showed the lowest DNA oxidation rate (P < 0.05). The penetration rate was significantly higher on spermatozoa cryopreserved with 105 μM RA (P < 0.05). The results suggest that RA provides a protection for boar spermatozoa against oxidative stress during cryopreservation by their antioxidant properties.     

Effects of dithioerythritol on ram semen after the freeze-thawing process

The aim of this study was to evaluate the effects of dithioerythritol added to cryopreservation extender on the post-thawed sperm parameters, lipid peroxidation and antioxidant activities of Merino ram sperm. Semen samples from 5 mature Merino rams (1 and 2 years of age) were used in the study. Semen samples, which were diluted with a Tris-based extender containing 0.5, 1, and 2 mM dithiothreitol and no antioxidant (control), were cooled to 5 °C and frozen in 0.25 ml French straws. Frozen straws were then thawed individually at 37 °C for 20 s in a water bath for evaluation.The addition of dithioerythritol at 0.5 and 2 mM doses led to higher percentages of subjective motility (62.9 ± 4.2% and 63.6 ± 1.8%) compared to control (52.0 ± 4.9%, P < 0.05). As regards CASA motility, dithioerythritol 0.25 and 2 mM (60.2 ± 4.5% and 59.6 ± 1.2%) groups were higher from that of control (44.2 ± 8.7%, P < 0.05). For the CASA progressive motility, 0.25, 0.5 and 2 mM doses of dithioerythritol (22.0 ± 2.1%, 21.7 ± 2.5% and 24.0 ± 1.2%) had increasing effect in comparison to control (15.0 ± 2.5%). Dithioerythritol at 1 and 2 mM doses for ALH provided higher values compared to the control (P < 0.001) following the freeze–thawing process. Supplementation with dithiothreitol did not significantly affect the integrities of sperm membrane and acrosome, and mitochondrial activities. No significant differences were observed in biochemical parameters among the groups (P > 0.05). Findings of this study showed that dithioerythritol supplementation in semen extenders, was of greater benefit to sperm motility of frozen–thawed ram sperm.     

Changes in rat spermatozoa function after cooling,cryopreservation and centrifugation processes

Rat sperm cryopreservation is an effective method of archiving valuable strains for biomedical research and handling of rat spermatozoa is very important for successful cryopreservation. The aim of this study was to evaluate changes in rat sperm function during cryopreservation and centrifugation. Epididymal rat spermatozoa were subjected to cooling and freezing–thawing processes and then motility, plasma membrane integrity (PMI), mitochondrial membrane potential (MMP) and reactive oxygen species (ROS) were compared before and after minimum centrifugation force (200×g). Cryopreservation decreased sperm motility, PMI, and MMP (P < 0.05). Basal (without ROS inducer, tert-butyl hydroperoxide [TBHP] treatment) and stimulated ROS (with TBHP treatment) were increased in viable cooled spermatozoa compared to viable fresh spermatozoa (P < 0.01), with equal susceptibility to TBHP among fresh, cooled, and frozen–thawed spermatozoa. Centrifugation decreased motility and PMI of frozen–thawed spermatozoa (P < 0.05). Centrifugation decreased basal ROS of all spermatozoa (P < 0.01), while it led to higher susceptibility to TBHP in viable cooled spermatozoa, showing higher increased fold in ROS and decreased rate in viability by TBHP in viable cooled spermatozoa (P < 0.05). Cooling process was the major step of ROS generation, with loss in sperm motility, PMI, and MMP. Centrifugation affected function of cryopreserved spermatozoa. These data suggest that centrifugation makes rat spermatozoa susceptible to external ROS source, in particular during cooling process. Thus, protection from ROS damage and minimizing centrifugation should be considered during cryopreservation and post-thaw use of cryopreserved epididymal rat spermatozoa.     

Semen collection,characterization, and cryopreservation in a Magellanic penguin (Spheniscus magellanicus)

A cooperative method was developed for collecting semen from a Magellanic penguin. Ejaculate parameters and semen production during a breeding season were characterized. Experiments were performed to study the effect on penguin spermatozoa of two temperatures (4°C and 21°C) for short‐term storage, and two cryoprotectants (dimethylsulfoxide [DMSO] and ethylene glycol [EG]) for long‐term storage (cryopreservation). All dilutions were made using modified Beltsville Poultry Semen Extender. Sperm quality was assessed by evaluating motility and forward progression (sperm motility index [SMI]), viability, and morphology. A total of 39 ejaculates was collected over the 40‐day study period. Thirty‐eight ejaculates contained spermatozoa, but semen quality decreased toward the end of the study period. Varying levels of urate contamination were present in all ejaculates. Sperm quality parameters were similar for diluted samples held at 4°C and 21°C, and samples maintained high numbers of viable (77.8 ± 5.4%) and morphologically normal (67.9 ± 2.5%) spermatozoa at 3 hr. SMI and percentage of viable sperm decreased (P < 0.05) and the number of spermatozoa with a bent head or midpiece increased (P < 0.05) for both temperature groups over the 3‐hr storage interval. DMSO and EG were equally effective in maintaining penguin sperm quality parameters during the cryopreservation and thawing process. Frozen‐thawed semen maintained 69 ± 5 and 78 ± 3% of its pre‐freeze SMI and viability, respectively. SMI and viability decreased slightly during the cooling and equilibration phases but remained relatively stable during the 3‐hr storage interval post‐thaw. Frozen‐thawed semen also exhibited an increase (P < 0.05) in spermatozoa with a bent head or midpiece over time. The pre‐freeze SMI was higher (P < 0.05) for ejaculates with low levels of urates (clean ejaculates) compared with ejaculates with high levels of urate contamination, but sperm viability and morphology were similar (P > 0.05). Both SMI and viability of frozen‐thawed spermatozoa were higher (P < 0.05) for clean than for contaminated ejaculates. This is the first report on penguin ejaculate parameters, semen production, and preliminary methods for short‐ and long‐term semen storage. Zoo Biol 18:199–214, 1999. © 1999 Wiley‐Liss, Inc.     

The advantages of low-density lipoproteins in the cryopreservation of bull semen

Egg low-density lipoprotein (LDL) was added at concentrations (w/v) of 7%, 8% or 9% to the extenders used to freeze bull semen and its effects on seminal parameters and anti-oxidant activities of frozen–thawed sperm were assessed. Analysis of data showed that sperm exposed to 8% LDL exhibited the greatest percentages of sperm motility, acrosome integrity and membrane integrity, compared to the control which differed from the treatment groups by replacing LDL with 20% egg yolk (P < 0.05). No difference was observed for membrane integrity between 8% and 9% LDL groups (P > 0.05). The extender supplemented with LDL did not exhibit improvement in SOD levels. However, 8% LDL group favored the highest anti-oxidant activities of CAT, GSH-Px and GSH in comparison to other groups (7%, 9% LDL and the control) (P < 0.05). No difference was observed for CAT activity between 9% LDL and the control group. In conclusion, sperm cryopreserved in the extender containing 8% LDL in place of egg yolk exhibited the greatest percentages of post-thaw sperm motility, acrosome integrity and membrane integrity, in comparison with the control, and favored the highest anti-oxidant activities of CAT, GSH-Px and GSH in comparison with other groups. The replacement of egg yolk by LDL in the composition of extenders was beneficial for bull sperm cryopreservation.     

Equine spermatozoa stored in the epididymis for up to 96 h at 4 °C can be successfully cryopreserved and maintain their fertilization capacity

After injury or death of a valuable male, recovery of epididymal spermatozoa may be the last chance to ensure preservation of its genetic material. The objective of this research was to study the effect of sperm storage, at 4 °C up to 96 h, in the epididymides obtained from castrated horses and its effect on different functional sperm parameters. Aims were to study the effect of (1) sperm storage on viability and chromatin condensation; (2) pre-incubation of recovered epididymal sperm in the freezing extender, prior cryopreservation, on viability and chromatin condensation; and (3) freezing–thawing on viability, chromatin condensation, ROS generation, protein tyrosine phosphorylation and heterologous fertilization rate (ICSI and IVF using bovine oocytes) of sperm recovered from the epididymis up to 96 h post castration. The average volume (720 ± 159 μL) and the concentration (6.5 ± 0.4 × 10⁹ spermatozoa/mL) of sperm recovered from the epididymis were not affected by storage. Sperm viability after refrigeration at 4 °C for up to72 h was similar (P < 0.01). The effect of sperm dilution in the freezing media showed similar values up to 48 h, while viability was preserved up to 72 h (P < 0.01). Cryopreserved spermatozoa show similar viability between different storage times. Chromatin condensation was not affected by storage time; however, incubation for 30 min in freezing medium and freezing–thawing process induced an increase in the chromatin decondensation. ROS generation was not affected by storage up to 96 h. Epididymal storage did not affect sperm protein tyrosine phosphorylation patterns; although the pattern of phosphorylation changed to strong staining of the equatorial segment when the sperm where capacitated in sperm–TALP. Finally, successful and similar pronuclear formation (analyzed by ICSI) and in vitro penetration (evaluated with bovine zone free oocyte) was observed using cryopreserved sperm obtained from prolong epididymal storage at 4 °C. In conclusion, cryopreservation of epididymal stallion sperm stored for up to 72 h in the epididymis at 4 °C, maintain both viability and ability to fertilize in vitro.     

Effect of Gynostemma Pentaphyllum Polysaccharide on boar spermatozoa quality following freezing–thawing

Gynostemma Pentaphyllum Polysaccharide (GPP) was added at concentrations of 0.25, 0.5, 1.0, 1.5 and 2.0 mg/ml to the extenders used to freeze boar semen and its effects on the quality of frozen–thawed sperm were assessed. The sperm motility was significantly higher in the extenders containing 0.25 and 0.5 mg/ml GPP, as compared to other groups (P < 0.05). The extender supplemented with 0.5 mg/ml GPP favored the highest intact membrane and intact acrosome percentages in comparison with other groups (P < 0.05), respectively. The mitochondrial activity was significantly higher at the concentrations of 0.25, 0.5 and 1.0 mg/ml GPP than that of other treatments, and the control group (P < 0.05). In biochemical assays, the extender supplemented with 0.25 and 0.5 mg/ml GPP significantly improved SOD levels, compared to other groups (P > 0.05). However, the extenders supplemented with GPP did not cause significant differences in levels of CAT and GSH-Px, compared to the control (P > 0.05). In summary, GPP exhibited a dose-related response and the lower concentration produced greater protective effect. According to the standard semen quality parameters and antioxidant activities measured in this study, the concentration of 0.5 mg/ml GPP caused a beneficial cryoprotective effects on the quality of frozen–thawed boar semen. It is proposed that an extender containing 0.5 mg/ml GPP could be used as cryoprotective medium of better efficiency.     

Effect of different cryoprotectant agents on spermatogenesis efficiency in cryopreserved and grafted neonatal mouse testicular tissue

Restoration of male fertility associated with use of the cryopreserved testicular tissue would be a significant advance in human and animal assisted reproductive technology. The purpose of this study was to test the effects of four different cryoprotectant agents (CPA) on spermatogenesis and steroidogenesis in cryopreserved and allotransplanted neonatal mouse testicular tissue. Hank’s balanced salt solution (HBSS) with 5% fetal bovine serum including either 0.7 M dimethyl sulfoxide (DMSO), 0.7 M propylene glycol (PrOH), 0.7 M ethylene glycol (EG), or glycerol was used as the cryoprotectant solution. Donor testes were collected and dissected from neonatal pups of CD-1 mice (one day old). Freezing and seeding of the testicular whole tissues was performed using an automated controlled-rate freezer. Four fresh (non-frozen) or frozen–thawed pieces of testes were subcutaneously grafted onto the hind flank of each castrated male NCr nude recipient mouse and harvested after 3 months. Fresh neonatal testes grafts recovered from transplant sites had the most advanced rate of spermatogenesis with elongated spermatid and spermatozoa in 46.6% of seminiferous tubules and had higher levels of serum testosterone compared to all other frozen–thawed-graft groups (p < 0.05). Fresh grafts and frozen–thawed grafts in the DMSO group had the highest rate of tissue survival compared to PrOH, EG, and glycerol after harvesting (p > 0.05). The most effective CPA for the freezing and thawing of neonatal mouse testes was DMSO in comparison with EG (p < 0.05) in both pre-grafted and post-grafted tissues based on histopathological evaluation. Likewise, the highest level of serum testosterone was obtained from the DMSO CPA group compared to all other cryoprotectants evaluated (p < 0.05). The typical damage observed in the frozen–thawed grafts included disruption of the interstitial stroma, intercellular connection ruptures, and detachment of spermatogonia from the basement membrane. These findings indicate that neonatal mouse testes were most effectively preserved when frozen with HBSS medium with DMSO and that the type of CPA is a significant factor to obtain the most advanced stages of spermatogenesis and steroidogenesis after cryopreservation, thawing, and transplantation of neonatal mouse testes.     

Fertility after post-cervical artificial insemination with cryopreserved sperm from boar ejaculates of good and poor freezability

This study compared the field fertility outcomes in frozen–thawed (FT) sperm from boar ejaculates with different freezability (good, GFE/poor, PFE) while testing the reliability of the post-cervical artificial insemination (post-CAI) in FT sperm. The assay was conducted over eight months with 86 weaned sows being inseminated by post-CAI. Every ejaculate in a total of 26 from 15 Piétrain boars was divided into a refrigerated semen portion (FS; control treatment) and a cryopreserved portion (FT sperm), and the ejaculates were in turn classified as GFE or PFE in function of the sperm progressive motility and viability at 240 min post-thaw. As result, one of four possible treatments was randomly given to each sow: FS-GFE, FS-PFE, FT-GFE and FT-PFE. The number of pregnant and farrowing sows in FT-GFE did not significantly differ from those of FS control treatments. Contrarily, the probabilities of pregnancy were two times lower after inseminations with FT-PFE (P < 0.05) compared to FT-GFE, which indicates that ejaculates with high post-thaw sperm progressive motility and viability are more likely to result in pregnancies than those with poor in vitro sperm function. There were no differences in litter size or the risk of backflow among treatments. Further trials are required to determine the optimal volume and concentration of FT sperm in post-CAI to obtain a more reliable method for farmers interested in cryopreserved sperm.     

Effects of mint,thyme, and curcumin extract nanoformulations on the sperm quality,apoptosis, chromatin decondensation,enzyme activity,and oxidative status of cryopreserved goat semen

Goat semen cryopreservation is a challenging process as it results in reduced motility, vitality, and fertility of spermatozoa after freezing. In this study, we evaluated the effects of different herbal extract nanoformulations (NFs) [mint (MENFs), thyme (TENFs), and curcumin (CENFs)], supplemented at either 50 or 100 μg into Tris-extender on the cryopreserved goat semen quality. The hydrothermal squeezing method was used for the preparation of the NFs extracts. The morphological evaluation of the NFs extracts was conducted by transmission electron microscopy. All NFs supplements improved (p < 0.05) the progressive motility, vitality, and plasma membrane integrity of sperm compared with the control extender after equilibration (5 °C for 2 h) and thawing (37 °C for 30 s), but had no effect on sperm abnormality and acrosome integrity. All NFs supplements decreased (p < 0.05) the apoptosis, malondialdehyde level, and chromatin decondensation of sperm cells, while increased (p < 0.05) the total antioxidant capacity and catalase activity in the frozen/thawed extender. Particularly, CENFs at a level of 100 μg showed improvement of sperm parameters and antioxidant status during cryopreservation of goat semen more than TENFs and MENFs. The CENFs improved the quality of goat spermatozoa in post-thawed semen in terms of preventing cryodamage and promoting the cryotolerance of spermatozoa when compared with TENFs and MENFs. Therefore, supplementation of Tris-extender with CENFs could enhance goat semen processing during cryopreservation.     

Improvement of the post-thaw qualities of Okinawan native pig spermatozoa frozen in an extender supplemented with ascorbic acid 2-O-alpha-glucoside

The technical establishment of boar sperm cryopreservation is indispensable for effective breeding of the scarce Okinawan native pig Agu. The objective of the present study was to determine whether ascorbic acid 2-O-α-glucoside (AA-2G), a stable ascorbate derivative, is capable of improving the quality of cryopreserved Agu spermatozoa. Ejaculated Agu sperm frozen in an extender supplemented with 0, 100, 200, 400 or 800 μM AA-2G was thawed, and then evaluated the sperm motility and other qualities. Treatment with 200 μM AA-2G has the most beneficial effect on the sperm motility and the plasmalemma integrity after frozen-thawing among the concentrations tested (P < 0.05). In particular, the incidences of total motile sperm and rapid progressive motility at 1 and 3 h after incubation were markedly increased by treatment with AA-2G at 200 μM. The addition of AA-2G during cooling and freezing efficiently protected spermatozoa against the lipid peroxidation and the DNA damage. Spermatozoa frozen in the presence of AA-2G possessed significantly higher levels (P < 0.05) of ATP even after thawing than those frozen without AA-2G, implying that sperm viability was effectively conserved. Furthermore, higher sperm penetrability to matured oocytes in vitro was maintained in sperm treated with AA-2G during cryopreservation. These effects were observed for all sperm derived from three individuals. These findings demonstrate that the addition of AA-2G to the freezing extender efficiently improves the post-thaw qualities of fragile Agu sperm through the protection of spermatozoa against cell damage caused by oxidative stress during cryopreservation.     

Magnetic-activated Cell Sorting before Cryopreservation Preserves Mitochondrial Integrity in Human Spermatozoa

Superparamagnetic annexin-V conjugated microbeads are able to eliminate spermatozoa with externalized phosphatidylserine, a membrane feature of apoptotic cells as well as spermatozoa with deteriorated plasma membrane. Our objective was to evaluate the effects of annexin-V Magnetic-Activated Cell Sorting (MACS) in cryopreservation–thawing protocols and on integrity of sperm mitochondrial transmembrane potential and mitochondrial integrity survival rate (MSR). Mature spermatozoa of 10 healthy donors were prepared by density gradient centrifugation and divided into 2 aliquots afterwards. The first one was subjected to annexin-V MACS followed by cryopreservation and thawing, while the second was cryopreserved–thawed without MACS to serve as control. Annexin-negative sperm separated by MACS showed significantly higher levels of intact mitochondria following cryopreservation–thawing (45.4±8.6%) compared to sperm that were not separated (15.8±4.6%, p<0.01). Separating a distinctive population of non-apoptotic spermatozoa with intact membranes may optimize cryopreservation–thawing outcome. MACS using annexin-V microbeads enhances the percentage of spermatozoa with intact transmembrane mitochondrial potential and mitochondrial integrity survival rates following cryopreservation.     

Spermatozoa concentration influences cryopreservation success in sea trout (Salmo trutta m. trutta L.)

Variation among individuals is substantial for spermatozoa concentration in fresh milt in sea trout (Salmo trutta m. trutta L.). The objective of the present study was to examine effects of spermatozoa concentration in this species on subsequent cryopreservation success. Milt with high spermatozoa concentration was diluted with seminal plasma to obtain concentrations ranging between 6 and 24 × 10⁹ mL⁻¹ with steps of 2 × 10⁹ mL⁻¹. Diluted milts were cryopreserved in 0.25-mL straws with extender (0.3 M glucose) containing 10% methanol and 10 % (vol/vol) supplement of hen egg yolk. The dilution ratio was 1:3 (milt:cryomedium). Cryopreservation efficacies were assessed according to evaluation of motility of frozen/thawed spermatozoa and quantification of fertilizing ability. Percentage of motility of frozen/thawed spermatozoa was influenced by spermatozoa concentration in the cryomedium (P < 0.05). The highest motility was observed in samples with 3.0 to 4.0 × 10⁹ spermatozoa per mL of cryomedium, which corresponds to 12 to 16 × 10⁹ spermatozoa per mL in fresh milt. Higher sperm concentrations and lower sperm concentrations in cryomedium reduced the effectiveness of cryopreservation when compared with the optimum. Cryopreservation success measured according to fertilization rate was in agreement with results for motility of frozen/thawed spermatozoa, but the optimum could not be determined with statistical precision because of differences in fertilization rate among individual donor males. However, a significant positive correlation was found between postthaw motility and fertilization rate and between cryopreserved spermatozoa velocity and fertilization rate (P < 0.05). In sea trout, cryopreservation efficiency is influenced by spermatozoa concentration in cryomedium. Individual adjustment of the dilution ratio, based on initial spermatozoa density, is recommended in the freezing protocol. Maximum cryoresistance of the cell was obtained when spermatozoa concentration in cryomedium ranged from 3.0 to 4.0 × 10⁹ mL⁻¹.     

Reduced glutathione content in human sperm is decreased after cryopreservation: Effect of the addition of reduced glutathione to the freezing and thawing extenders

In this study, total glutathione content was determined in human spermatozoa before and after cryopreservation. Total GSH in fresh semen was 4.47 ± 0.46 nmol/10⁸ cells. Following semen cryopreservation, GSH decreased to 1.62 ± 0.13 nmol/10⁸ cells, a 64% reduction (p < 0.01). This decrease in GSH content was associated with a decrease in sperm progressive motility (68% of reduction, p < 0.01). Addition of 1 mM GSH to the freezing extender increased the percentage of total motility and sperm viability. It also modified the motility pattern measured by CASA with changes in the straight-line and average path velocities and wobble of the curvilinear trajectory. Addition of GSH to the freezing media reduced spermatozoa ROS levels and increased the level of sulfhydryl groups on membrane proteins. Nevertheless, no effect of GSH addition on lipid membrane disorder or chromatin condensation was detected. Addition of 1 or 5 mM GSH to the thawing media increased the percentage of motile and progressively motile spermatozoa, but no effect on viability was detected. In conclusion, the antioxidant defensive capacity of the GSH is severely altered by the freeze–thawing process. The addition of GSH to the freezing and thawing extender could be of partial and limited benefit in improving the function of frozen human spermatozoa.     

Field fertility of sex-sorted and non-sorted frozen-thawed stallion spermatozoa

In the 2004/2005 breeding season, the fertility of sex-sorted (SS) and non-sorted (NS) frozen stallion spermatozoa from two Hannovarian stallions was compared. A hysteroscopic insemination technique [Morris, L.H., Tiplady, C., Allen, W.R., 2003a. Pregnancy rates in mares after a single fixed time hysteroscopic insemination of low numbers of frozen–thawed spermatozoa onto the uterotubal junction. Equine Vet. J. 35, 197–201] was used to deposit low doses (6, 13 or 25 × 10⁶ frozen–thawed SS or NS spermatozoa) onto the utero-tubal junction at 32 or 38 h after the administration of Chorulon (2500 IU, Intervet). Fertility was low, with one pregnancy (13 × 10⁶ spermatozoa, 500 μL) obtained after artificial insemination with frozen SS spermatozoa (n = 29 cycles) which resulted in the birth of a filly. Two pregnancies were obtained in mares inseminated with 6 × 10⁶ NS spermatozoa in 250 μL (n = 31 cycles). Mares failing to conceive on two experimental cycles were allocated to the conventional insemination group. Insemination with >500 × 10⁶ motile NS frozen–thawed spermatozoa, yielded satisfactory per cycle conception rates (35.5%, 22/62) for both stallions combined and was within the values of their normal fertility as quoted by the stud's records. This suggests that the quality of the frozen semen was acceptable and that the freezing processes yielded viable spermatozoa capable of fertilisation. The poor fertility after hysteroscopic insemination with low doses of sex-sorted or non-sorted spermatozoa from the same stallions may be directly attributable to the low dose insemination conditions with frozen–thawed rather than sex-sorted spermatozoa.