Use of single-layer centrifugation with Androcoll-C to enhance sperm quality in frozen-thawed dog semen

The aim of this study was to investigate whether single-layer centrifugation (SLC) with Androcoll-C could select good quality spermatozoa, including those with specific motility patterns, from doses of frozen dog semen. Semen from five dogs was collected and cryopreserved following a standard protocol. After thawing, the semen samples were divided in two aliquots, one of which was used as a control and the other one processed by SLC. Assessment of sperm motility (assessed by computer-assisted semen analysis), morphology (Diff-Quick staining), viability (dual staining with propidium iodine/acridine orange), and acrosome integrity (dual staining with propidium iodine/isothiocyanate-labeled peanut [Arachis hypogaea] agglutinin) were performed on aliquots of fresh semen, frozen-thawed control samples, and frozen-thawed SLC-treated preparations. A multivariate clustering procedure separated 57,577 motile spermatozoa into three subpopulations (sP): sP1 consisted of poorly active and nonprogressive spermatozoa (48.8%), sP2 consisted of moderately slow but progressive spermatozoa (13.3%), and sP3 consisted of highly active and/or progressive spermatozoa (37.8%). SLC with Androcoll-C yielded sperm suspensions with improved motility, viability, and acrosome integrity (P < 0.01). The frozen-thawed SLC-treated samples were enriched in sP3, representing 38.5% of the sperm population. Likewise, sP2 was more frequently observed after SLC, but not significantly so. From these results, we concluded that for dog semen samples selected by SLC with Androcoll-C after thawing, the sperm quality parameters, including motility patterns, are better than in frozen-thawed control samples.     

Role of sperm motility and acrosome integrity in the filtration of bovine semen

In this study, the role of sperm motility and acrosome integrity in filtration of bovine semen was investigated. In Experiment 1, the treatment of semen with formaldehyde, hyperosmotic buffer, heating and direct freezing immobilized the spermatozoa completely but their acrosomal status varied significantly (P < 0.01). The immotile spermatozoa, of any kind, did not pass through the Sephadex ion-exchange column at room temperature. In Experiment 2, semen samples possessing different percentages of immobilized spermatozoa (0, 50, 75 and 100%) were filtered through the Sephadex ion-exchange column. The immotile/dead spermatozoa were removed proportionately to their number in the semen by Sephadex ion-exchange column. The type and number of immotile spermatozoa in semen had no effect (P > 0.05) on the post-filtration recovery rate of motile spermatozoa. Filtered spermatozoa exhibited higher (P < 0.01) motility (> 90%), progressive motility (> 70%) and normal acrosomes (> 95%) than non-filtered spermatozoa. In conclusion, sperm motility seems to be more important than acrosome integrity for semen filtration, and the Sephadex ion-exchange column can remove the known quantities of different kinds dead/immotile spermatozoa.     

Evaluation of a cushioned method for centrifugation and processing for freezing boar semen

The purpose of this investigation was to evaluate the use of an iodixanol cushion during centrifugation on sperm recovery and yield after centrifugation (sperm recovery, sperm motility, viability, membrane lipid disorder, acrosome reaction and ROS generation); and to investigate how this procedure affects sperm function after freezing-thawing (sperm motility, membrane lipid disorder, acrosomal status and homologous in vitro penetration test). The sperm-rich fractions from fertile boars were centrifuged under two centrifugation régimes: 800xg for 10min (standard method) and 1000xg for 20min with an iodixanol (60% w/v) cushion at the bottom of the centrifuge tubes (Cushion method). The highest recovery was achieved using the cushion method (sperm loss for cushion method was 0.50%+/-0.18 versus 2.97%+/-0.43 for standard method, P<0.01) and sperm quality was not significantly affected by the centrifugation régime. The motion parameters (% progressive motility, % motility, VCL, VSL, VAP, ALH, BCF, P<0.05) of frozen-thawed samples showed higher values using the standard method. However, a higher number of viable spermatozoa with lower lipid disorders were found in spermatozoa processed with the cushion method. The in vitro penetration assay showed that the individual boar influenced the parameters studied but there were no differences between the two centrifugation régimes used. Our results support the hypothesis that the proportion of sperm loss in frozen-thawed semen was significantly influenced by the centrifugation régime. Therefore, the iodixanol cushion method is a suitable tool for cryopreservation of boar semen in order to reduce sperm loss without affecting sperm quality.     

Effect of storage on sperm membrane integrity and other functional characteristics of canine spermatozoa: In vitro bioassay for canine semen

The effect of storage of canine semen on sperm membrane integrity, as determined by the hypoosmotic swelling test, and on other functional characteristics of the canine spermatozoa was evaluated by established procedures. The results of this study indicated that storage of canine semen at a chilling temperature of 5 degrees C for 24 h did not significantly impair the physical and functional characteristics of the canine spermatozoa. The overall mean percentage of motility, hypo-osmotic swelling response, which assessed sperm membrane integrity, acrosome-reacted spermatozoa, acrosomal defects, and the percentage of live spermatozoa, did not significantly differ between the fresh and chilled semen samples. However, storage altered the rate of motility and acrosome reaction. The percentage of acrosome reaction in the canine capacitating medium peaked earlier in chilled than in fresh semen. It is probable that storing semen at 5 degrees C initiated/triggered the acrosome reaction. This did not amount to impairment of functional properties. Significant correlations were observed between hypo-osmotic swelling vs motility (r=0.98, P<0.002); hypo-osmotic swelling vs acrosome reaction (r=0.83, P<0.08); and acrosome reaction vs motility (R=0.89, P<0.04) in the fresh semen, and between hypo-osmotic swelling vs motility (r=0.87, P<0.05) and hypo-osmotic swelling vs acrosome reaction (r=0.56, P<0.05) in the chilled semen. It was concluded: that 1) storage of canine semen at 5 degrees C for 24 h did not significantly impair the physical and functional integrity of the spermatozoa; 2) the significant association between motility or acrosome reaction vs hypo-osmotic swelling indicates their value in assessing sperm viability; and 3) the hypo-osmotic swelling assay could have predictive value in screening out subfertile males with apparently normal spermiograms.     

Colloidal centrifugation with Androcoll-E™ prolongs stallion sperm motility, viability and chromatin integrity

The objective was to investigate the changes in stallion sperm quality (sperm motility, viability, membrane integrity and chromatin integrity) occurring during cool storage, and to study the effect of sperm selection by single layer colloidal centrifugation on these parameters of sperm quality. Spermatozoa from 3 stallions (10 ejaculates, 3–4 per stallion) were selected by centrifugation through a single layer of colloid (SLC). The resulting sperm preparations and the control samples (extended but unselected semen samples) were stored at 5 °C for 48 h. Assessments of sperm quality, such as sperm motility, viability (SYBR-14/PI staining), membrane stability (Annexin-V/PI staining) and chromatin integrity, were performed on aliquots of the selected sperm preparations and unselected samples on the day of collection (3 h) and after 24 and 48 h of storage. In the SLC-selected sperm samples, sperm motility, sperm viability, proportions of spermatozoa with normal morphology and with intact chromatin were significantly better than in unselected samples (motility: 77 ± 4% vs. 64 ± 8% at 3 h; P < 0.001; viability: 79.5 ± 9% vs. 64.7 ± 9%, P < 0.001; normal morphology 89 ± 6% vs. 69 ± 9%; chromatin integrity DFI 11.3 ± 5% vs. 22.1 ± 10%). Membrane stability, however, was not different in the SLC-selected and unselected samples (74.6 ± 8% vs. 69.3 ± 8%). The deterioration seen in sperm quality in the unselected samples was prevented by SLC, so that sperm viability, membrane stability and chromatin integrity were unchanged in the selected samples by 48 h compared to 3 h (P < 0.001), whereas the unselected samples were significantly worse by 48 h (P < 0.001). Furthermore, it should be possible to send an aliquot of a normal insemination dose (i.e. unselected spermatozoa) overnight to a reference laboratory for analysis of both plasma membrane and chromatin integrity. In conclusion, centrifugation of stallion spermatozoa through a single layer of colloid is a useful technique for selecting the best spermatozoa from an ejaculate and, moreover, sperm quality is maintained during storage.     

Bovine oviductal fluid (bOF) collected in the follicular or luteal phase of the estrous cycle exerts similar effects on ram sperm kinematics and acrosome reactivity in vitro

This study examined the effects of bovine oviductal fluid (bOF) obtained during the follicular or luteal phase of the estrous cycle on ram sperm kinematics, capacitation status and plasma membrane (PM) integrity at various time points during the 24-h incubation period. Fresh ram spermatozoa were selected using the swim-up technique and then incubated separately with either follicular phase (FbOF) or luteal phase (LbOF) bovine oviductal fluid added to Fert-TALP medium (positive control - POSControl) or in Fert-TALP medium without capacitating agents (negative control - NEGControl) at 38 °C under 5% CO₂. Incubation with FbOF or LbOF for 2 h and 4 h promoted an increase (P < 0.05) in most of the sperm motility parameters as compared with the NEGControl group, and bOF-induced changes in sperm kinematics were similar (P > 0.05) to those seen in the POSControl group. After 6 h of incubation, the stimulatory effect of FbOF or LbOF on ram sperm kinematics was no longer observed (P > 0.05). Sperm PM integrity was not affected (P > 0.05) by incubation in bOF-supplemented media or in absence of capacitating factors (NEGControl). Although neither FbOF nor LbOF had any effect on sperm capacitation rates, the proportion of acrosome-reacted spermatozoa was greater (P < 0.05) for bOF-containing media compared with the NEGControl group during the long incubation periods (18 h and 24 h). In conclusion, bOF from either follicular or luteal phase of the estrous cycle enhances ram sperm motility for up to 4 h and the rate of acrosome reaction after long (18–24 h) incubation periods without affecting sperm viability.     

Effect of hen's egg yolk on capacitation and acrosome reaction of diluted canine spermatozoa

The aim of this study was to investigate the influence of progesterone, cholesterol and calcium (Ca²⁺) in an egg-yolk-containing extender on capacitation and acrosome reactions (AR) of diluted canine spermatozoa during 4 days of cooled-storage. For this purpose, we first investigated the effect of supplementation of a Tris–citrate–fructose buffer (TCF) with progesterone in a final concentration of 0.1, 0.2 and 1.0 μg progesterone/ml TCF-diluted semen. We then compared the effects of TCF and the same buffer-containing 20% egg yolk (TCF–EY). In egg yolks and the TCF–EY, progesterone was measured by enzyme immunoassay, cholesterol by enzymatic colorimetry and Ca²⁺ by flame atomic absorption spectrophotometry. For both experiments, ejaculates from eight dogs were used. For the comparison of diluents, one ejaculate was divided and one half diluted with TCF, the other with TCF–EY. One half of each TCF- and TCF–EY-diluted sample was evaluated immediately (D1), the other after storage for 4 days at +4 °C (D4). In diluted semen, motility and viability were measured by a computer assisted sperm analyzer (CASA; Sperm Vision, Minitüb, Germany), capacitation and AR were evaluated with a modified chlortetracycline assay (CTC) and the AR additionally by flow cytometry. Results: Supplementation of progesterone revealed, that between D1 and D4, total and progressive motility decreased with all progesterone concentrations, while viability as well as percentage of capacitated and acrosome reacted spermatozoa stayed constant. Progesterone-, cholesterol- and Ca²⁺ concentrations in egg yolks were 524.8 ± 131.4 ng/g, 13.9 ± 2.03 mg/g and 1.27 ± 0.17 mg/g, respectively. In the TCF–EY-diluent, the respective values were 210.9 ng/g, 2.52 mg/g and 1.1 mg/g. In TCF–semen, at D1, motility and viability were significantly higher than in TCF–EY-samples (p < 0.05), however at D4, no significant differences were detectable. Further, in TCF–semen, percentages of spermatozoa with intact membranes decreased significantly (p < 0.05) and capacitated spermatozoa increased (p < 0.05), which was not seen in TCF–EY-samples. In all samples, low percentages of AR were detected and after 4 days, the highest value of AR in TCF–EY-samples was 5.3% on average, as detected by flow cytometry. We therefore conclude that progesterone from egg yolk in routine extenders does not substantially influence semen longevity or AR of canine semen during cold-storage for 4 days. In contrary, egg yolk seems to prevent a significant increase in capacitated spermatozoa.     

Effect of trehalose- and sucrose-based extenders on equine sperm quality after vitrification: Preliminary results

There has been a lack of research into equine sperm vitrification to date, but studies of other species suggest it may have significant potential. To evaluate the impact of various cryoprotectant agents (CPA) and vitrification on equine sperm quality, a controlled study was carried out. A total of 12 ejaculates were subjected to exposure to CPA and vitrification. Sperm was diluted in a range of CPA: fresh, control (BSA), sucrose (0.15M, 0.3M and 0.5M), trehalose (0.15M, 0.3M and 0.5M) and the combination of sucrose and trehalose (M1: 0.15M sucrose+0.5M trehalose; M2: 0.5M sucrose+0.15M trehalose). Sperm motility, viability, acrosome integrity and DNA fragmentation were assessed at the time of CPA exposure and after vitrification. The exposure of spermatozoa to various concentrations of sucrose and/or trehalose significantly reduced sperm motility, with lower concentrations resulting in higher sperm motility. Sperm viability and DNA fragmentation did not vary after exposure to CPA, but acrosome integrity fell significantly when spermatozoa were exposed to CPA with high osmolality. When spermatozoa were vitrified, motility values were significantly higher than those obtained during the exposure. Low concentrations of sucrose (0.15M and 0.3M) and trehalose (0.15M) showed the best progressive sperm motility. The vitrification-warmed procedure significantly reduced sperm viability and acrosome integrity, but DNA did not vary with any of CPA used. Equine sperm vitrification demonstrates a low capacity for preserving sperm motility, and extenders containing trehalose or sucrose at lower concentrations are associated with a better protective effect on sperm motility. After vitrification, acrosome and plasma membranes were severely impaired, while the DNA structure was maintained. Equine spermatozoa partially recover the motility after vitrification, but there is a need for further studies into the preservation of sperm membranes.     

Motile sperm subpopulations in frozen-thawed dog semen: Changes after incubation in capacitating conditions and relationship with sperm survival after osmotic stress

In this study we investigated the changes that in vitro incubation under capacitating conditions could induce on the motile sperm subpopulations present in frozen-thawed dog semen samples. In addition, cryopreserved dog spermatozoa were exposed to CCM (canine capacitating medium) solutions of 300, 150, 100 and 75mOsm and the proportions of live spermatozoa with swollen tails were recorded (HOST+). Finally, frozen-thawed dog semen samples were submitted to a second cycle of freezing and thawing and the overall sperm motility, as well as the motile sperm subpopulations structure, was determined. Cryopreserved dog semen samples were structured in four sperm subpopulations with different motility characteristics: Subpopulation (Sp) 1 contained moderately rapid and progressive spermatozoa (25.2±8.5%), Sp 2 included poorly motile and non progressive sperm (15.3±8.1%), Sp 3 was represented by moderately slow non progressive sperm (14.9±5.9%), and Sp 4 contained the most rapid and progressive sperm (20.8±14.7%). After 3h of incubation under capacitating conditions, percentages of spermatozoa assigned to Sp 2 (6.1±3.4%) and 3 (4.9±2.8%) significantly decreased, whereas those assigned to Sp 1 (17.0±11.2%) and 4 (16.2±12.8%) did not significantly change. Significant correlations were found between percentages of HOST+, for the 3 osmolarities tested, and percentages of spermatozoa included in Sp 1 and 4 after 3h of incubation in capacitating conditions or in Sp 4 after double freezing and thawing. These results indicated that subpopulations with the most rapid and progressive sperm seemed to be highly resistant to in vitro incubation in capacitating conditions and to osmotic stress, suggesting they are likely to be the source of the fertilizing population.     

Induction of the acrosome reaction in human spermatozoa by a fraction of human follicular fluid

Human ejaculated spermatozoa were washed through a Percoll gradient, preincubated for 10 hr in a defined medium containing serum albumin, and then induced to undergo rapid acrosome reactions by addition of human follicular fluid or a Sephadex G-75 column fraction of the fluid. Induction by follicular fluid did not occur when the spermatozoa were preincubated for only 0 or 5 hr. The reactions were detected by indirect immunofluorescence using a monoclonal antibody directed against the human sperm acrosomal region. The percentage of acrosomal loss counted by transmission electron microscopy agreed with that counted by immunofluorescence. The apparent molecular weight of the Sephadex G-75 fraction containing the peak of acrosome reaction-inducing activity was 45,000 ± 4,200 (SD). The occurrence of physiological acrosome reactions was supported by: assessing motility (no significant loss of motility occurred during the treatment period when sperm were preincubated with bovine serum albumin), transmission electron microscopy (the ultrastructural criteria for the acrosome reaction were met), and zona-free hamster oocyte binding and penetration (spermatozoa pretreated with the active fraction of follicular fluid, then washed and incubated with oocytes, showed significantly greater binding to and penetration of oocytes). The stimulation of the acrosome reaction by follicular fluid is apparently not due to blood serum contamination; treatment of preincubated spermatozoa with sera from the follicular fluid donors had no effect on the spermatozoa. The nature of the active component(s) in that fraction is currently being investigated.     

A Novel Approach to Identifying Physical Markers of Cryo-Damage in Bull Spermatozoa

Cryopreservation is an efficient way to store spermatozoa and plays a critical role in the livestock industry as well as in clinical practice. During cryopreservation, cryo-stress causes substantial damage to spermatozoa. In present study, the effects of cryo-stress at various cryopreservation steps, such as dilution / cooling, adding cryoprtectant, and freezing were studied in spermatozoa collected from 9 individual bull testes. The motility (%), motion kinematics, capacitation status, mitochondrial activity, and viability of bovine spermatozoa at each step of the cryopreservation process were assessed using computer-assisted sperm analysis, Hoechst 33258/chlortetracycline fluorescence, rhodamine 123 staining, and hypo-osmotic swelling test, respectively. The results demonstrate that the cryopreservation steps reduced motility (%), rapid speed (%), and mitochondrial activity, whereas medium/slow speed (%), and the acrosome reaction were increased (P < 0.05). Differences (Δ) of the acrosome reaction were higher in dilution/cooling step (P < 0.05), whereas differences (Δ) of motility, rapid speed, and non-progressive motility were higher in cryoprotectant and freezing as compared to dilution/cooling (P < 0.05). On the other hand, differences (Δ) of mitochondrial activity, viability, and progressive motility were higher in freezing step (P < 0.05) while the difference (Δ) of the acrosome reaction was higher in dilution/cooling (P < 0.05). Based on these results, we propose that freezing / thawing steps are the most critical in cryopreservation and may provide a logical ground of understanding on the cryo-damage. Moreover, these sperm parameters might be used as physical markers of sperm cryo-damage.     

The storage of pure ram semen at room temperature results in capacitation of a subpopulation of spermatozoa

We investigated whether storage of pure ram semen at room temperature would facilitate the sperm capacitation process, as assessed by means of the chlortetracycline method. Objective motility, membrane integrity and ability of spermatozoa to undergo acrosome reaction induced by A23187 for 15 min were simultaneously evaluated to gain further insight into this process. Storage for 4 h at room temperature had a clear capacitating effect in approximately 50% of spermatozoa and increased their ability to respond to A23187. Beyond that time, the percentage of motility and membrane integrity remained unchanged. Moreover, storage did not alter the ability of those spermatozoa that remained noncapacitated under these conditions to become capacitated in SOF-m medium. Storage for 4 h increased the percentage of spermatozoa showing swelling of the apical ridge from 3 to 13%. In conclusion, storage of ram semen at room temperature for 4 h in the dark has a marked capacitating effect on a subpopulation of spermatozoa, without changes in motility or membrane integrity, and a low effect on the appearance of the acrosome. Since semen storage is generally included in different IVF protocols, the results presented here contribute toward a clearer understanding of its role in these procedures.     

Boar sperm velocity and motility patterns under capacitating and non-capacitating incubation conditions

This study compares the velocity and motility of boar sperm under capacitating and non-capacitating incubation conditions. Aliquots of pooled, washed boar sperm were incubated in either Tyrode's complete medium (TCM; a capacitating medium), Ca2+-free TCM (TCM-Ca2+), or Ca2+ and NaHCO3-free TCM (Tyrode's basal medium [TBM]; a non-capacitating medium). Motility patterns were determined every hour over a 3h period of incubation at 38 degrees C. Capacitation status was assessed by the chlortetracycline assay after 1 and 3h of incubation. Experiments were repeated five times. Compared to the TBM control, a significant increase was seen in the percentage of capacitated sperm after 1h of incubation in TCM: the kinematics of these sperm cells were favorably modified. However, the motility patterns of sperm cells incubated in TCM and TCM-Ca2+ were very similar. Under capacitating conditions (TCM), the coefficients of linearity (LIN) and straightness (STR) significantly increased over time (LIN values were significantly different after 3h of incubation, while STR values were significantly different after only 2 h). Significant correlations were seen between LIN and the percentage of cells showing the B pattern (r = 0.334, P < 0.05) and the number of acrosome reacted spermatozoa (r = 0.301, P < 0.05). This suggests that capacitated boar spermatozoa may have a species-specific motility pattern.     

Brown bear sperm double freezing: Effect of elapsed time and use of PureSperm® gradient between freeze–thaw cycles

The use of sexed spermatozoa has great potential to captive population management in endangered wildlife. The problem is that the sex-sorting facility is a long distance from the semen collection place and to overcome this difficulty two freeze–thaw cycles may be necessary. In this study, effects of refreezing on brown bear electroejaculated spermatozoa were analyzed. We carried out two experiments: (1) to assess the effects of the two freezing–thawing cycles on sperm quality and to analyze three different elapsed times between freezing–thawing cycles (30, 90 and 180 min), and (2) to analyze the use of PureSperm between freezing–thawing cycles to select a more motile and viable sperm subpopulation which better survived first freezing. The motility, viability and undamaged acrosomes were significantly reduced after the second thawing respect to first thawing into each elapsed time group, but the elapsed times did not significantly affect the viability and acrosome status although motility was damaged. Our results with the PureSperm gradient showed higher values of viability in freezability of select sample (pellet) respect to the rest of the groups and it also showed a significant decrease in the number of acrosome damaged. In summary, the double freezing of bear semen selected by gradient centrifugation is qualitatively efficient, and thus could be useful to carry out a sex-sorting of frozen–thawed bear spermatozoa before to send the cryopreserved sample to a biobank. Given the low recovery of spermatozoa after applying a selection gradient, further studies will be needed to increase the recovery rate without damaging of the cell quality.     

Assessment of the efficacy of Sephadex G-15 filtration of bovine spermatozoa for cryopreservation

Semen from five dairy AI bulls was split-filtered through a Sephadex G-15 filter and frozen in a Tris-citric acid buffer egg yolk-based extender. The effect of filtration was studied morphologically for individual sperm abnormalities. Computer-assisted sperm analysis (CASA) was used for motility and sperm motion assessment. Flow cytometry was used to disclose sperm viability (SYBR-14/PI), mitochondrial membrane potential (Mitotracker Deep Red/SYBR 14), acrosome integrity (SYBR 14/PE-PNA/PI), plasma membrane stability (Merocyanine 540/YO-PRO 1/Hoechst 333342), and chromatin stability (acridine orange staining). Filtration significantly reduced the concentration of recovered spermatozoa (P < 0.01), but improved semen quality, reducing the number of spermatozoa with various forms of morphological defects. Filtration also affected percentages of sperm motility after equilibration and after freezing/thawing. Sperm motion characteristics were, however, not significantly affected by filtration at any stage of the cryopreservation protocol, including post-extension, equilibration, or freezing/thawing. Filtration enhanced sperm viability after thawing (P < 0.05), but had no significant effect (P > 0.05) on recovery of spermatozoa with high mitochondrial potential, intact acrosomes, or preserved sperm chromatin structure. Sperm plasma membrane stability was also not affected by the filtration method used (P > 0.05). It can be concluded that filtration effectively separates weaken or abnormal spermatozoa in pre-freezing semen samples and therefore the procedure could be recommended to improve post-thaw sperm viability of selected, fertile sires.     

Phospholipid composition of isolated guinea pig sperm outer acrosomal membrane and plasma membrane during capacitation in vitro

After capacitation of guinea pig spermatozoa in vitro, the plasma membrane was mechanically separated from the spermatozoa in the presence or absence of HgCl₂ and subsequently isolated by density gradient centrifugation. Examination of the spermatozoa by electron microscopy after homogenization in the presence of HgCl₂ revealed that plasma membrane was removed only from the acrosomal region and remained predominately intact posterior to the equatorial segment of the sperm head, as well as the midpiece and tail. In comparison, spermatozoa homogenized under similar buffer conditions but in the absence of HgCl₂ lose the large apical segment of the acrosome and the plasma membrane is removed essentially from the entire cell. If spermatozoa were homogenized in the absence of Hg²⁺, analysis of plasma membrane phospholipid composition revealed a complete loss of lysophosphatidylcholine (LPC) from the plasma membrane after incubation of spermatozoa in minimal capacitating medium (MCM-PL) for 2 hours. Under these culture conditions the addition of Ca²⁺ (5 mM) to the capacitated spermatozoa induced approximately 78 ± 5% (n = 3) of the motile spermatozoa to undergo acrosome reactions while still maintaining sperm motility (80 ± 5%) (n = 3). If the spermatozoa were homogenized in the presence of Hg²⁺, a time course study revealed that plasma membrane LPC loss occurred between 60 and 90 minutes of incubation. This complete loss of LPC was evident when approximately half of the capacitated spermatozoa had undergone acrosome reactions. Incubation of the spermatozoa with the metabolic and acrosome reaction inhibitor, 2-deoxyglucose (10 mM) for 2 hours, maintained the plasma membrane phospholipid composition similar to that in the noncapacitated state. These data provide evidence that changes in the plasma membrane phospholipid composition may be associated with guinea pig sperm capacitation.     

Elamipretide as a potential candidate for relieving cryodamage to human spermatozoa during cryopreservation

As a technique widely used in assisted reproduction, human spermatozoa cryopreservation makes it possible to conserve functional sperm for a long time, but the impact of cryodamage on sperm during the process could not be ignored. The objective of the present study was to investigate the efficacy of Elamipretide, a novel small mitochondrial targeting short cytoprotective peptide, in attenuating cryodamage during spermatozoa cryopreservation. Semen samples were collected and cryopreserved in freeze solution containing different concentrations (0.0, 0.1, 1, and 10 μM) of Elamipretide. Sperm motility, viability, membrane integrity, mitochondrial membrane potential, DNA fragmentation, antioxidant profiles, and acrosome reaction were measured and analyzed. The results showed that supplementation of the freeze media with Elamipretide (1 and 10 μM) significantly improved post-thaw sperm parameters including motility and viability, stability of the plasma membrane, and mitochondria and chromosomes. In addition, by adding Elamipretide, excessive oxidation and acrosome dysfunction in sperm cells undergoing freeze-thaw were also significantly attenuated. Therefore, Elamipretide may be a potential candidate for relieving cryodamage to human spermatozoa during cryopreservation.     

Sperm viability of canine and caprine semen samples preserved in a dry shipper

This study assessed the efficacy of a dry shipper to preserve canine and caprine semen samples. After equilibration, semen straws from six Majorera bucks and five dogs were frozen and stored in liquid nitrogen (LN). Thirty days after freezing, half of the frozen straws were transferred from LN to a dry shipper (DS). Then, thawing was performed at 1, 2, 3, 5 and 7 days and the percentages of motile spermatozoa, acrosome intact spermatozoa and abnormal spermatozoa were determined. The sperm motility (total and progressive) of canine semen samples preserved with DS was quite similar to those preserved in LN, and no significant differences were observed throughout the experimental period. In addition, no differences were observed in the number of abnormal spermatozoa (range: 13.2-19.0%) or intact acrosome (range 91.3-95%) between both storage protocols. Buck semen samples showed equivalent levels of progressive motility (between 50% and 60%) and intact acrosome membrane (around 70%) during the first 3 days of storage in both procedures; however, from the fifth day of storage onwards, a notable decrease in semen quality was observed in the samples preserved in DS, showing a dramatic fall in the semen viability after 7 days of preservation (12.3% and 36.8%, progressive fast spermatozoa and acrosome integrity, respectively). In dog samples, the present study confirmed that seminal quality did not show modifications for the preservation period (7 days), confirming the efficacy of the dry shipper to preserve frozen samples for a short time. However, under the circumstances reported in this study, the sperm quality of buck samples preserved in the dry shipper only held during the first 3 days of storage, and therefore, its practical application could be more limited.     

Effects of very rapid versus vapor phase freezing on human sperm parameters

The aim of the present study was to compare the effects of two freezing methods, vapor phase and very rapid freezing, with and without cryoprotectant on semen parameters in men with normal semen criteria. Cryopreservation was done on semen samples from 31 men by two methods of vapor phase freezing and very rapid freezing, with and without Test Yolk buffered glycerol (TYBG) as cryoprotectant. The motility, viability, acrosome and DNA integrity were evaluated on fresh and post-thaw samples. Post-thaw sperm progressive motility was significantly higher in the presence of TYBG in the vapor phase cryopreservation (%6.30 ± 3.74) compared with the very rapid freezing method (%2.2 ± 1.97 and %4.00 ± 2.42 in the presence and absence of TYBG, respectively). There was no significant difference in viability, acrosome status and DNA integrity between two methods in presence or absence of TYBG. The very rapid freezing method in the absence of TYBG showed better sperm motility but viability, acrosome and DNA integrity were similar to the presence of TYBG. The results show that cryopreservation of human spermatozoa together with seminal plasma by using vapor phase method is better than very rapid freezing method to preserve sperm progressive motility; however very rapid freezing method is quick and simple and do not require special cryoprotectant. It can be used for cryopreservation of small number of spermatozoa in IVF centers.     

Supplementation of the thawing medium with reduced glutathione improves function of frozen-thawed goat spermatozoa

Sperm cryopreservation represents a useful tool in the management of reproduction in goat production. However, freezing and thawing produce physical and chemical stress on the sperm membrane that reduces their viability and fertilizing ability. In this study, firstly we evaluated the effects of reduced glutathione (GSH, 1 and 5 mM) supplementation of the thawing extender on parameters of frozen-thawed goat spermatozoa. We used a set of functional sperm tests that included sperm motility assayed by computer-assisted semen analysis (CASA), membrane lipid packing disorder, spontaneous acrosome reaction, free radical production (ROS generation) and sperm chromatin condensation. The main findings from this study were that addition of GSH to the thawing medium resulted in: (1) a higher motility and progressive motility; (2) a higher number of non-capacitated viable spermatozoa; (3) higher number of viable spermatozoa with intact acrosome; (4) a reduction in ROS generation and (5) lower chromatin condensation. In a second study, the additions of reduced (GSH, 5 mM) or oxidized glutathione (GSSG, 2.5 mM) to the thawing media were evaluated. We confirmed the protective effect of GSH on the sperm functionality. The addition of GSSG to the thawing media was less protective to sperm functions compared to GSH. Addition of GSH to the thawing extender could be of significant benefit in improving the function and fertilizing capacity of frozen goat spermatozoa. The information derived from this study suggests the importance of oxidative stress as responsible for cryo-injury to spermatozoa and opens new windows to explore the practical application of antioxidants to improve the quality of post-thaw goat semen.