Cryopreservation of Iberian red deer (Cervus elaphus hispanicus) spermatozoa obtained by electroejaculation

We tested extenders and freezing protocols for Iberian red deer semen. Samples were obtained by electroejaculation (10 stags), and analyzed for motility (CASA), viability (propidium ioide), acrosomal (PNA-FITC) and mitochondrial status (JC-1). Samples were diluted 1+1 in extender, cooled and adjusted for glycerol (extender with higher glycerol concentration), brought to 160×10⁶ mL⁻¹ and frozen. Four experiments were carried out, repeating sperm analysis after thawing to compare treatments. In a first experiment, seven samples were frozen using Triladyl^® (20% egg yolk) and UL extender (Tes-Tris-fructose, 15% egg yolk, 4% glycerol). Triladyl^® yielded higher motility after thawing. In a second trial, 17 samples were frozen using Triladyl^®, Andromed^®, Bioxcell^®, and UL with 8% LDL (low-density lipoproteins). Triladyl^® and Andromed^® performed better than Bioxcell^® on motility, and than UL-LDL on viability and acrosomal status. In a third experiment, the performance of freezing the sperm-rich ejaculate fraction versus the whole ejaculate was tested on nine samples. The sperm-rich ejaculate fraction not only rendered more motile and viable spermatozoa but also showed higher freezability (higher motile spermatozoa recovery). In a fourth experiment, we tried three modifications of the freezing protocol, for improving the freezability of low concentration samples: prior removal of seminal plasma; replacing extender (second fraction) for pure glycerol to reduce dilution; and performing only the 1+1 dilution, not the second dilution. No differences were found, although only three samples could be used. Both Triladyl^® and Andromed^® were deemed appropriate for freezing Iberian red deer semen, and the rich fraction should be selected for freezing.     

The addition of reduced glutathione to cryopreservation media induces changes in the structure of motile subpopulations of frozen-thawed boar sperm

Adding cryopreservation media with reduced glutathione (GSH) has previously been shown to maintain the motility, membrane integrity and fertilizing ability of frozen-thawed boar sperm, although the effects of GSH on good (GFE) and poor freezability (PFE) ejaculates rely upon the intrinsic ejaculate freezability. The resilience to withstand freeze-thawing procedures has previously been related to the existence of a specific distribution of motile sperm subpopulations, which differs between GFE and PFE. Thus, the main aim of this study was to determine whether the addition of GSH to freezing media has any impact on the distribution of motile sperm subpopulations in GFE and PFE. With this purpose, 18 GFE and 13 PFE were cryopreserved with or without 2 mM GSH. Sperm quality and motile subpopulations were evaluated at 30 min and 4 h post-thawing. Three subpopulations were identified and the percentages of spermatozoa belonging to the fastest and most linear subpopulation, which was referred as ‘SP1’, decreased over post-thawing time. Good freezability ejaculates that were cryopreserved in the presence of 2 mM exhibited a significantly higher percentage of spermatozoa belonging to SP1 than the other combinations of treatment and freezability both at 30 min (mean ± SEM: GFE-C: 16.6 ± 0.4; GFE-GSH 27.7 ± 0.6) and 4 h post-thawing (GFE-C: 7.8 ± 0.2 vs. GFE-GSH: 16.7 ± 0.4). In conclusion, the positive effect of GSH on the motility of frozen-thawed sperm is related to a specific sperm subpopulation (SP1), which could coincide with the fertile sperm one.     

Subpopulation distribution of motile sperm relative to activation medium in steelhead (Oncorhynchus mykiss)

In the present study, steelhead sperm were activated in artificial tap water, ovarian fluid, activating saline, or in combinations of these media, and motility characteristics were determined using computer-assisted sperm analysis. Motility characteristics of individual sperm were then assessed to test the hypothesis that motile sperm are distributed among discrete subpopulations and that their distribution is influenced by the activation medium. Analysis with k-means clustering detected three discrete motile sperm subpopulations in steelhead semen, regardless of the activation medium. Based on multivariate analysis of variance, proportions of these subpopulations did not differ between sperm activated with ovarian fluid and activating saline, or any combination of these two media. However, subpopulation distributions for sperm activated with either ovarian fluid or activating saline were influenced by the level of dilution of these media in artificial tap water. There was an increase in the number of sperm in high velocity (curvilinear), high straightness, and high wobble subpopulation with increased levels of ovarian fluid or activating saline. The change in sperm motility characteristics with a change in activation medium may play a role in normal fertilization, as discharged sperm pass from seminal plasma and water through ovarian fluid en route to the egg.     

Identification of sperm subpopulations with defined motility characteristics in ejaculates from Florida goats

The aims of this study were to test the presence of discrete sperm subpopulations in Florida goat ejaculates using a computer-assisted sperm analysis (CASA) system and to establish the relationship between the distribution of the subpopulations found and individual buck, total motility, and sperm concentration. Clustering methods and discriminant analysis were applied to identify motile sperm subpopulations within the semen samples. Principal component analysis revealed that three principal components represented more than the 88% of the variance. After the cluster analysis was performed four motile sperm subpopulations were identified. Subpopulation 1 consisted of rapid and linear sperm (39.84%), Subpopulation 2 consisted of slow but linear spermatozoa (33.23%), Subpopulation 3 consisted of rapid, high ALH but non-linear spermatozoa (14.63%), and Subpopulation 4 consisted of slow and non-linear spermatozoa (12.31%). There were significant differences in the distribution of the four subpopulations (P < 0.001) as well as in the percentage of total motility and the overall sperm concentration (P < 0.05) in fresh ejaculates among the four bucks tested. In conclusion, four well-defined motile sperm subpopulations were identified in Florida goat ejaculates. The relationship between the distribution of the sperm subpopulations and individual buck, total motility, and sperm concentration shows that the spermatozoa of each have different motility patterns. Therefore, the study of discrete subpopulations of motile spermatozoa could lead to a substantial increase in information acquired during caprine semen analysis.     

Effects of dilution and centrifugation on the survival of spermatozoa and the structure of motile sperm cell subpopulations in refrigerated Catalonian donkey semen

The aim of this work was to study the effects of dilution and centrifugation (i.e., two methods of reducing the influence of the seminal plasma) on the survival of spermatozoa and the structure of motile sperm cell subpopulations in refrigerated Catalonian donkey (Equus asinus) semen. Fifty ejaculates from nine Catalonian jackasses were collected. Gel-free semen was diluted 1:1, 1:5 or 1:10 with Kenney extender. Another sample of semen was diluted 1:5, centrifuged, and then resuspended with Kenney extender until a final dilution of 25 × 10⁶ sperm/ml was achieved (C). After 24 h, 48 h or 72 h of refrigerated storage at 5 °C, aliquots of these semen samples were incubated at 37 °C for 5 min. The percentage of viable sperm was determined by staining with eosin-nigrosin. The motility characteristics of the spermatozoa were examined using the CASA system (Microptic, Barcelona, Spain). At 24 h, more surviving spermatozoa were seen in the more diluted and in the centrifuged semen samples (1:1 48.71%; 1:5 56.58%, 1:10 62.65%; C 72.40%). These differences were maintained at 48 h (1:1 34.31%, 1:5 40.56%, 1:10 48.52%, C 66.30%). After 72 h, only the C samples showed a survival rate of above 25%. The four known donkey motile sperm subpopulations were maintained by refrigeration. However, the percentage of motile sperms in each subpopulation changed with dilution. Only the centrifuged samples, and only at 24 h, showed exactly the same motile sperm subpopulation proportions as recorded for fresh sperm. However, the 1:10 dilutions at 24 and 48 h, and the centrifuged semen at 48 h, showed few variations compared to fresh sperm. These results show that the elimination of seminal plasma increases the survival of spermatozoa and the maintenance of motility patterns.The initial sperm concentration had a significant (P < 0.05) influence on centrifugation efficacy, but did not influence the number of spermatozoa damaged by centrifugation. In contrast, the percentage of live spermatozoa in the fresh semen significantly influenced the number of spermatozoa damaged by centrifugation, but not centrifugation efficacy.     

The degree of resistance to freezing-thawing is related to specific changes in the structures of motile sperm subpopulations and mitochondrial activity in boar spermatozoa

The main aim of this work was to analyze the possible relationship between the structures of motile-sperm subpopulations and boar (Sus scrofa domesticus) sperm resistance to freezability. For this purpose, 45 boar ejaculates were subjected to a standard freezing-thawing protocol, and afterwards they were classified into three groups, in accordance with their resistance to freezing-thawing. Our analysis yielded four separate motile-sperm subpopulations in all of the studied ejaculates, both in fresh samples and after freezing-thawing. Furthermore, whereas curvilinear velocity (VCL), mean velocity (VAP), and dance (DNC) of sperm from Subpopulation 1 underwent significant increases after freezing-thawing in samples with a good response to freezing-thawing, the same parameters of Subpopulation 1 either did not undergo significant variations (VCL and DNC) or even showed a decrease (VAP) (from 20.4 ± 0.4 μm/sec in fresh samples to 15.2 ± 2.2 μm/sec after freezing-thawing) in samples with the poorest response. Similarly, the behavior of other motility parameters in each subpopulation was also very different in the worst samples when comparing them with those with a good or average response to cryopreservation. Additionally, the DNC of all four subpopulations was in all cases lower in samples with the poorest characteristics of freezability. This was not the only difference, and significant changes in parameters such as the VCL of Subpopulations 2 and 4, linearity coefficient (LIN) of Subpopulations 1, 2, and 3, and wobble coefficient (WOB) of Subpopulations 2 and 3 were also observed in samples with different response to freezing-thawing. Meanwhile, the determination of mitochondrial activity and mitochondrial-linked reactive oxygen species formation indicated that the samples with the poorest freezability characteristics were also those with the lowest mitochondrial activity. We conclude that boar ejaculate resistance to cryopreservation seems to be related to the specific, initial motile-sperm subpopulation structure. In turn, this structure would be closely related to the specific, overall mitochondrial activity, which would be a very important indicator of sperm function. Furthermore, and as a practical conclusion, an in-depth analysis of motile sperm subpopulation structure together with functional tests could improve the design of predictive strategies for the freezability of boar sperm.     

Evaluation of sperm subpopulation structure in relation to in vitro sperm–oocyte interaction of frozen-thawed semen from Holstein bulls

The present study examined the relationship between the relative amount of high motile sperm and sperm–oocyte interactions obtained from Holstein bull ejaculates. Post-thaw sperm motility was analyzed using a computer-assisted sperm analyzer system and evaluated to determine the sperm motility subpopulations. Adhesion and penetration of zona pellucida (ZP) and pronucleus formation using post-thawed samples (15 ejaculates form 5 different bulls) with different percentages of sperm in the subpopulation with the fastest and most progressive subpopulation (subpopulation 4 [SP4]) were analyzed. The correlation between the proportion of sperm in SP4 and the number of spermatozoa bound to the zona pellucida (ZBA), the penetration rate, and the rate of pronucleus formation were calculated. A significant (P < 0.05) and positive correlation was found between the number of spermatozoa bound to the zona pellucida, the penetration rate, and the rate of pronucleus formation with the proportion of sperm in SP4 (r = 0.79, r = 0.66, and r = 0.63, respectively). Our results suggest that this specific high motile and progressive subpopulation is positively and significantly correlated with the ability of a thawed bull semen sample to interact properly with the oocyte and its extracellular vestments. These findings emphasize the relevance of analyzing semen subpopulation composition to predict bull sperm fertilizing ability and to select Holstein bulls for breeding purposes.     

Sperm quality evaluation in Solea senegalensis during the reproductive season at cellular level

Sperm quality seems to be one of the reasons for the reproduction constraints faced by Senegalese sole (Solea senegalensis) aquaculturists. Previous studies in this species indicated that the sperm quality of individuals kept in culture varies throughout the year and that different sperm subpopulations can be identified in ejaculates according to the motility pattern of spermatozoa. Aiming to better understand factors affecting sole sperm quality in captivity, sperm of 11 males was assessed during the reproductive season using different parameters: motility characteristics using CASA analysis; cell plasma membrane resistance to seawater hyperosmolarity; DNA fragmentation with single-cell gel electrophoresis; and early apoptosis, labeled with Annexin-V FITC. Computer-assisted sperm analyses motility data were treated using multivariate analysis to identify the presence of different spermatozoa subpopulations according to their motility pattern. Four distinct sperm subpopulations were obtained: Subpop1, which includes fast linear spermatozoa; Subpop2, made up of fast nonlinear spermatozoa; Subpop3, which includes slow linear spermatozoa; and Subpop4, which contains slow nonlinear spermatozoa. The sperm subpopulation structure varied with time after activation and with male. Low cell resistance to the seawater hyperosmotic conditions was noticed. The Annexin-V assay allowed the identification of an apoptotic population ranging from 6% to 20%. A high percentage of cells (64.1%) showed a DNA fragmentation level below 30%, but these values varied significantly between males. DNA fragmentation appears to be related to cell membrane resistance to hyperosmotic conditions faced by the cells when in contact with seawater. This condition seems to modulate the composition of the motile sperm population and performance after activation. This phenomenon could be related to the spermatozoa maturation process.     

Changes in the structures of motile sperm subpopulations in dog spermatozoa after both cryopreservation and centrifugation on PureSperm(®) gradient

The aims of the present study were to: (1) determine if discrete motile sperm subpopulations exist and their incidence in fresh dog ejaculates, (2) evaluate the effects of cryopreservation on the distribution of spermatozoa within the different subpopulations, and (3) determine the effect of the discontinuous PureSperm(?) gradient on the sperm subpopulation structure of frozen-thawed dog spermatozoa. Semen from 5 dogs were collected and cryopreserved following a standard protocol. After thawing, semen samples were selected by centrifugation on PureSperm(?). Sperm motility (assessed by computerized-assisted semen analysis, CASA) was assessed before freezing, just after thawing and after preparation on the PureSperm(?) gradients. Cryopreservation had a significant (P<0.001) effect on CASA-derived parameters. PureSperm(?) centrifugation yielded sperm suspensions with improved motility (P<0.01). A multivariate clustering procedure separated 19414 motile spermatozoa into four subpopulations: Subpopulation 1 consisting of poorly active and non-progressive spermatozoa (20.97%), Subpopulation 2 consisting of slow and low-linear spermatozoa (18.24%), Subpopulation 3 consisting of highly active but non-progressive spermatozoa (20.75%), and Subpopulation 4 consisting of high speed and progressive spermatozoa (40.03%). Although, cryopreservation had a significant (P<0.001) effect on both the frequency distribution of spermatozoa within subpopulations and the motion characteristics of each subpopulation, the sperm subpopulation structure was perfectly maintained after freezing and thawing. The selected sperm samples was enrich in Subpopulation 4, reaching a proportion of 31.9% of the present spermatozoa, in contrast with the unselected sperm samples, where this sperm subpopulation accounted for 24.9% of the total. From these results, we concluded that four well-defined motile sperm subpopulations were present either in fresh semen, in unselected sperm samples or in selected preparations from dogs. The discontinuous PureSperm(?) gradient is a simple method to improve the quality of canine frozen-thawed semen samples, since Subpopulation 4 (high-speed and progressive spermatozoa) was more frequently observed after preparation on the gradient. Finally, this study also demonstrated that the general motile sperm structure present in dog remains constant despite the effect caused by either cryopreservation or separation on PureSperm(?) gradient.     

Season of ejaculate collection influences the freezability of boar spermatozoa

The aim of this retrospective study was to evaluate whether the season of ejaculate collection influences the freezability of porcine sperm. A total of 434 ejaculates were collected from boars of six different breeds over three years (2008–2011) and throughout the four seasons of the year identified in the northern hemisphere (winter, spring, summer and autumn). The ejaculates were cryopreserved using a standard 0.5 mL straw freezing protocol. Sperm quality was assessed before (fresh semen samples kept 24 h at 17 °C) and after freezing and thawing (at 30 and 150 min post-thawing in semen samples kept in a water bath at 37 °C), according to the percentages of total motility, as assessed by the CASA system, and viability, as assessed by flow cytometry after staining with SYBR-14, PI and PE-PNA. The data, in percentages, on sperm motility and viability after freezing and thawing were obtained at each evaluation time (recovered) and were normalized to the values before freezing (normalized). The season of ejaculate collection influenced (P < 0.01) sperm quality before freezing and after thawing (recovered and normalized), irrespective of the breed of boar. Sperm quality was lower in summer, both in terms of motility and viability, and in autumn, in terms of motility, than in winter and spring. Seasonality in the normalized data indicates that the season of ejaculate collection influences sperm freezability, regardless of the season’s influence on sperm quality before freezing. Consequently, the spermatozoa from ejaculates collected during summer and, to a lesser extent, also in autumn, are more sensitive to cryopreservation than those from ejaculates collected during winter and spring.     

Which fields under a coverslip should one assess to estimate sperm motility?

Under field conditions the motility of bull semen often has to be estimated under a coverslip on a microscope slide. This study was aimed at determining which combination of fields under coverslips provides measurements of sperm motility that best represent the motility in semen specimens as measured in a specially designed chamber for use in a computer-assisted sperm analyzer (CASA). We measured the motility (percentages motile, progressively motile, and aberrantly motile spermatozoa) in each of four straws of frozen-thawed semen from each of 10 bulls five times, ranging from 5 to 120 minutes after thawing with each bull by straw by time combination yielding one semen specimen. Motility was measured in duplicate in a Hamilton, Thorne IVOS CASA; once in each of 12 fields equally spaced along the equatorial radius of a coverslip (Field 0 at the edge and Field 11 at the center) and once in each of eight equally spaced fields along the equator of a Leja 4 chamber designed for use in a CASA. We used the weighted average motility of all fields in a chamber as gold standard and compared it to the average motility of each the following combinations of fields under the coverslip: all 12 fields, Fields 2 to 4, Fields 2 and four, Field 3 and the center three fields. The concordance correlation coefficient (CCC) was determined between the motility in each combination of fields under coverslips and the chambers as a reproducibility index, which evaluates the agreement between the readings under the coverslips and the gold standard readings in the chambers (n = 187 for each CCC). We performed pairwise comparisons of the CCCs (P < 0.005 for each comparison) and established that the average motility under all 12 fields better reproduced the motility in the chamber than the center three fields or Field 3. The averages of Fields 2 to 4 and Fields 2 and 4 reproduced chamber motility as well as the average of all 12 fields, except for the percentage motile sperm, where the average of all 12 fields was better. Using the average motility of Fields 2 and 4, 50% of estimates fell within 6%, 4% and 3% above or below the percentages motile, progressively motile and aberrantly motile spermatozoa in the Leja 4 chamber, 80% of estimates fell within 12%, 8% and 7% thereof and 95% fell within 23%, 13% and 12% thereof. In conclusion, for the method of spreading semen under a coverslip and the range in motility values used, this study shows that the average of the motility over the 12 fields along the equatorial radius under a coverslip provides the best estimate of the motility of a semen specimen, while the average of Fields 2 and 4 is also suitable for the subjective estimation of motility under field conditions, although the estimated motility is expected to fall within 6% above or below the motility of the specimen in only 50% of semen specimens.     

Assessment of goat semen freezability according to the spermatozoa characteristics from fresh and frozen samples

A total of 110 ejaculates were assessed in order to determine the influence of the physical parameters of goat semen on post-thaw motility and acrosome integrity. Sperm ejaculate characteristics, sperm motility, morphology and acrosome integrity were assessed in fresh and frozen samples by the sperm class analyzer (SCA) and Spermac staining technique. A decrease in acrosome integrity and sperm motility was found after thawing (P<0.01). Six semen parameters assessed before freezing were identified as predictors of sperm freezability (P<0.01). The percentage of morphological abnormalities (R=0.856) and motile sperm cells (R=0.655) in fresh semen are the best predictors to know the total post-thaw variability parameters.     

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.     

Development of in vitro embryo production systems for red deer (Cervus elaphus). Part 1. Effect of epithelial oviductal monolayers and heparin on in vitro sperm motility and penetration of in vitro matured oocytes

In vitro fertilisation (IVF) protocols for red deer have yielded low fertilisation rates, with no embryo development beyond the eight-cell stage when heparin was used as the in vitro capacitation agent. As this low fertilisation rate may result from reduced motility, the present study investigated the use of red deer oviduct epithelial cell monolayers (COEM) and conditioned medium (Cm) from the monolayers to maintain red deer sperm motility in vitro. A second experiment compared the fertilisability of red deer sperm pre-incubated for 4-12h on COEM or for 4h in TALP medium supplemented with 20 microg of heparin.COEM was superior in maintaining red deer sperm motility compared with either Sp-TALP alone or Cm (P<0.05). COEM sustained sperm motility at levels comparable to the initial motility over the 24h period. The motility of sperm incubated in Sp-TALP and Cm was similar and had declined to less than 10% by 4h and no motile sperm were observed by 8h. Overall, the penetration rates of in vitro red deer oocytes were low (5-28%) regardless of sperm treatment. Sperm pre-incubated on COEM penetrated more oocytes than sperm incubated with heparin (P<0.001). Penetration rates were similar for 4-12h pre-incubation of sperm on COEM (P>0.50). Penetration rates were greater across all treatments when both sperm and oocytes were co-incubated for 24h compared to 12h (P<0.001). There were no differences in penetration rates among the four donor stags used in the study.It was concluded that COEM sustains red deer sperm motility in vitro during the 24h observation period. Pre-incubating sperm on COEM does increase sperm penetration rates compared with heparin alone, but at a rate too low and variable to be used on a routine basis. Overall, the penetration rates were comparable to those previously reported for red deer even though differences in heparin concentration, fertilisation systems and stags were used.     

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.     

Effect of cryopreservation on fish sperm subpopulations

The evaluation of the motility data obtained with a CASA system, applying a Two-Step Cluster analysis, identified in seabream sperm 3 different sperm subpopulations that correlated differently with embryo hatching rates. Hence, we designed an experiment to understand the effect of the application of different cryopreservation protocols in these sperm motility-based subpopulations. We analyzed Sparus aurata frozen/thawed semen motility 15, 30, 45 and 60 s after activation, using CASA software. Different protocols were applied for cryopreservation: three different cryoprotectants (Dimethyl Sulfoxide (Me₂SO), Ethylene Glycol (EG) and Propylene Glycol (PG)) each at two different concentrations and two packaging volumes (0.5 ml straws, and 1.8 ml cryovials) were tested. Different freezing rates were evaluated corresponding to 1, 2, 3, 4 and 8 cm above the liquid nitrogen surface for the straws and 1, 2 and 4 cm for the cryovials. Motility parameters rendered by CASA were treated with a Two-Step Cluster analysis. Three different subpopulations were obtained: SP1 – slow non-linear spermatozoa, SP2 – slow linear spermatozoa and SP3 – fast linear spermatozoa. We considered SP3 as the subpopulation of interest and focused further analyses on it. Generally, SP3 was the best represented subpopulation 15 s after activation and was also the one showing a greater decrease in time, being the least represented after 60 s. According to the applied univariate general linear model, samples frozen in straws with 5% Me₂SO and in cryovials with 10% Me₂SO at 2 and 1 cm from the LN_2, respectively, produced the best results (closer to the control). Clustering analysis allowed the detection of fish sperm subpopulations according to their motility pattern and showed that sperm composition in terms of subpopulations was differentially affected by the cryopreservation protocol depending on the cryoprotectant used, freezing rates and packaging systems.     

Cholesterol-loaded cyclodextrin is efficient in preserving sperm quality of cryopreserved ram semen with low freezability

Semen freezability is positive correlated with the cholesterol content in the sperm cell. Freeze-thawing mainly cause temperature chock and change on media osmolarity, which can modify plasma membrane lipids content and sperm conformation, resulting in decreased fertility. Therefore, the aim of this study is to investigate the effect of adding cholesterol-loaded cyclodextrin (CLC) to the cryopreservation process of ram semen with low freezability. For that, two experiments were performed using 5 ejaculates of 6 rams, totalizing 30 samples. For experiment 1 the following treatments were tested: in natura (IN), Tris solution (CON), CLC + Tris solution (CLC), and pure methyl-β-cyclodextrin + Tris solution (MCD). For experiment 2 treatments CON and CLC were tested in samples subdivided into three freezability classes: high (n = 10), intermediate (n = 10) and low (n = 10). Freezability classes were based on the variation of sperm motility between IN and CON groups from the first experiment. Sample analyzes included sperm motility, sperm morphology, plasma and acrosome membrane integrity, mitochondrial membrane potential, reactive oxygen species content, lipid peroxidation, and fluidity of plasma membrane. Results showed that CLC treatment was more efficient in maintaining sperm motility, integrity of plasma membrane, integrity of acrosome, and mitochondria membrane potential. In addition, CLC treatment in the groups with low and intermediate freezability showed improvement on progressive motility and percentage of rapid cells. In contrast, no difference was noted between CLC and CON treatments in the high freezability group. Therefore, the addition of CLC to semen extender improved sperm cryopreservation, especially in rams with low freezability.     

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.