In vitro characteristics of canine spermatozoa subjected to two methods of cryopreservation

The in vitro viability of canine spermatozoa was evaluated after freezing-thawing using the Andersen method, and the commercial CLONE method. These methods differ in the extenders used, number of dilution steps, and equilibration times as well as in both freezing and thawing techniques and rates. Insemination with semen frozen-thawed by either method gives high whelping rates in practice, implying that dog spermatozoa can retain their fertilizing ability after being subjected to widely different preservation methods. The in vitro viability of spermatozoa processed by these methods has not been previously evaluated in detail. Three ejaculates were collected from each of 5 fertile dogs. Each ejaculate was divided into 2 parts and frozen in medium straws according to the 2 methods. Two straws were thawed and examined from each freezing batch. Sperm motility was assessed in the undiluted semen, and in frozen-thawed semen immediately after thawing, and after storage for 3, 6 and 24 h at room temperature (Straw 1) or 1, 2 and 3 h at 37 degrees C (Straw 2, thermoresistance test). The integrity of the sperm plasma membrane was evaluated in undiluted, in equilibrated (diluted and chilled), and in frozen-thawed spermatozoa using fluorophore probes. The acrosome morphology of frozen-thawed spermatozoa was assessed using a commercial stain (Spermac). Motility immediately after thawing was significantly higher with the CLONE method (75.3% [SD = 4.0] for Straw 1 and 73.7% [SD = 3.2] for Straw 2) than with the Andersen method (70.0% [SD = 5.1] and 69.7% [SD = 3.2]). Motility decreased during storage after thawing. Spermatozoa frozen-thawed using the CLONE method showed a significantly lower thermoresistance. The proportion of spermatozoa with intact plasma membrane was not affected by the equilibration procedure used with either method but was significantly decreased (P < 0.001) after thawing with both methods. The percentage of spermatozoa exhibiting changes thought to represent different stages of acrosomal degradation, was 45.7% (SD = 5.3) using the Andersen method and 44.1% (SD = 9,4) using the CLONE method. Both cryopreservation methods thus resulted in high initial post-thaw sperm motility and membrane integrity but low thermoresistance, and under both methods a large proportion of sperm cells were undergoing acrosomal degradation. The methods differed significantly in terms of their effect on sperm motility but not on plasma membrane integrity or acrosomal morphology.     

Fluorescent staining as a method of assessing membrane damage and post-thaw survival of ram spermatozoa

We studied the relationship between motility and membrane damage, as assessed by fluorescent staining, in fresh and in frozen-thawed ram spermatozoa. Semen from Merino rams was incubated with 6-carboxyfluorescein diacetate and propidium iodide. In both fresh and frozen-thawed samples, the percentage of intact spermatozoa was lower than the motility rate, thus indicating the presence of damaged but motile spermatozoa. Freezing and thawing resulted in a marked loss of membrane integrity, whereas motility decreased to a lesser extent. There was a positive relationship (r=0.64; P<0.001) between membrane integrity immediately after thawing and motility after 8 h of incubation at 37 degrees C. These results demonstrate the usefulness of the fluorescent staining method for the prediction of ram sperm quality and post-thaw survival.     

Viability assessment of dog spermatozoa using flow cytometry

The percentages of living and dead spermatozoa in fresh dog semen samples were assessed by means of a dual staining technique using carboxifluorescein diacetate (CFDA) and propidium iodide (PI). Two ejaculates were obtained from dogs, each ejaculate was divided into 4 aliquots, and different proportions of freeze-killed cells were added to each aliquot. Data obtained by flow cytometry analysis of each sample were compared with those obtained by the microscopic evaluation under epifluorescence illumination and by phase-contrast microscopy evaluation of the samples stained with eosin-nigrosin. Regression analysis was used to compare the 3 methods for membrane integrity assessment of canine spermatozoa, and high correlation coefficients were found between the flow cytometry procedure and the 2 microscopy techniques. The results from this study validate the use of flow cytometry as a precise method for assessing the viability of dog spermatozoa.     

Cryoprotective effect of different glycerol concentrations on domestic cat spermatozoa

Cryopreservation of spermatozoa is a pivotal tool in assisted reproduction, and studies aiming to establish optimal freezing/thawing protocols are essential to enhance sperm survival. The objectives of the present study were to (1) compare the cryoprotective efficiency of three different glycerol concentrations (3%, 5%, and 7%) on the basis of post-thaw sperm quality and (2) investigate whether the incidence of morphologically abnormal sperm in fresh samples is related to cryodamage sensitivity. Semen was collected from six tomcats using an artificial vagina (total 18 ejaculates). Each ejaculate was diluted using Tris-egg yolk–based extender (TEY), evaluated, equally divided into three aliquots, and rediluted using TEY with and without glycerol to achieve final concentrations of 3%, 5%, and 7%. Samples were loaded into 0.25 mL straws, equilibrated for 60 minutes at 5 °C, frozen, and then thawed at 46 °C for 12 seconds. Fresh and frozen-thawed samples were evaluated for sperm motion parameters (computer-assisted sperm analysis), plasma membrane integrity (PMI; propidium iodide and carboxyfluorescein diacetate), and DNA integrity (acridine orange). Plasma and acrosomal membrane integrity were assessed by flow cytometry (propidium iodide and fluorescein isothiocyanate–conjugated pea (Pisum sativum) agglutinin) immediately after thawing. Sperm motion parameters were also evaluated at 30 and 60 minutes of postincubation. For all treatment groups, cryopreservation significantly impaired the PMI and sperm motion parameters, except for straightness and amplitude of lateral head displacement. DNA integrity showed a slight reduction (P < 0.05) when 3% glycerol was used. The percentage of total motility, progressive motility, and rapid spermatozoa were significantly lower immediately after thawing and up to 60 minutes of incubation for the 3% glycerol group when compared with 5% and 7%. No difference (P > 0.05) was found for PMI, acrosome integrity, and DNA integrity among post-thaw groups. However, higher (P < 0.05) incidence of viable cells with reacted acrosome and dead cells with intact acrosome were observed with 7% and 3% glycerol, respectively. Percentage of morphologically abnormal spermatozoa in fresh sample was positively correlated with PMI only in the 3% glycerol group and negatively correlated with sperm motility in the 5% and 7% groups. In conclusion, the final concentration of 5% glycerol offered better cryoprotective effect for ejaculated cat sperm, and the relationship found between prefreezing sperm morphology and post-thaw sperm quality showed to be dependent on final glycerol concentration.     

Evaluation of fresh and frozen-thawed fowl semen by flow cytometry

The aim of this study was to assess the spermatozoal viability, acrosome integrity, mitochondrial activity, and DNA status in the frozen-thawed fowl semen with the use of flow cytometry. The experiment was carried out on 10 sexually adult roosters of meat type line Flex. The semen was collected three times a week by dorso-abdominal massage method, then pooled and subjected to cryopreservation using “pellet” method and Dimethylacetamide (DMA) as a cryoprotectant. For cytometric analysis the fresh and frozen-thawed semen was extended with EK diluent to a final concentration of 50 million spermatozoa per mL. Sperm membrane integrity was assessed with dual fluorescent probes SYBR-14 and propidium iodide (PI). Acrosomal damages were evaluated using phycoerythrin-conjugated lectin PNA from Arachis hypogaea. The percentage of live spermatozoa with functional mitochondria was estimated using Rhodamine 123 (R123) and PI. The spermatozoal DNA integrity was measured by sperm chromatin structure assay (SCSA). The freezing-thawing process decreased the viability, mitochondrial activity in the chicken sperm and increased the percentage of dead cells with ruptured and intact acrosomes, and also the percentage of spermatozoa with fragmented DNA. In conclusion, the present study indicates that fluorescent staining and flow cytometry may be useful for assessment of the changes of fowl semen quality caused by cryopreservation process. This technique allows precise examination of spermatozoa functional characteristic in a very short time.     

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.     

Evaluation of cryopreserved stallion semen from Tori and Estonian breeds using CASA and flow cytometry

Methods to evaluate the quality of frozen-thawed stallion semen are still needed, particularly those considering the sperm function. The present study evaluated sperm motility, membrane and acrosome integrity and the capacitation status of frozen-thawed spermatozoa from seven Tori and six Estonian breed stallions by way of computer assisted sperm analysis (CASA), a triple fluorophore stain combination and Merocyanine 540, respectively, the latter ones using flow cytometry. Two ejaculates from each stallion were cryopreserved using the Hannover method in 0.5 ml plastic straws. Two straws per ejaculate per stallion were thawed at 37 degrees C for 30s. Motility was analysed with CASA immediately after thawing, while for flow cytometry spermatozoa were cleansed by 70:40% Percoll discontinuous density gradient separation before analysed for sperm viability, acrosome integrity (stained with SNARF, PI and FITC-PSA) and capacitation status (stained with Merocyanine 540/Yo-Pro-1). Results (as least square means) were as follows: the motility of frozen-thawed semen was 43.4% for Tori stallions and 42.3% for Estonian stallions (P>0.05). After Percoll separation 79.3% of the spermatozoa from Tori stallions had intact acrosomes and 1.7% of them showed early signs of capacitation. The same parameters for Estonian stallions were 84.5 and 2.3%, respectively. There were no statistically significant differences between breeds or ejaculates within breed for any evaluated parameter. We conclude that triple staining and flow cytometry are valuable techniques to evaluate frozen-thawed stallion spermatozoa, and that no differences in quality of frozen semen were registered between Tori and Estonian breed stallions, allowing implementation of this technology in the Estonian horse population.     

Effect of cryopreservation on sperm parameters, lipid peroxidation and antioxidant enzymes activity in fowl semen

The aim of the present study was to determine the influence of chicken semen cryopreservation on sperm parameters, lipid peroxidation and antioxidant enzymes activities. Pooled semen from 10 Black Minorca roosters was used in the study. Semen samples were subjected to cryopreservation using the “pellet” method and dimethylacetamide (DMA) as a cryoprotectant. In the fresh and the frozen-thawed semen sperm membrane integrity (SYBR-14/propidium iodide (PI)), acrosomal damage (PNA-Alexa Fluor^®488) and mitochondrial activity (Rhodamine 123) were assessed using flow cytometry. Malondialdehyde (MDA) concentration, catalase (CAT), glutathione peroxidase (GPx) and superoxide dismutase (SOD) activities were determined in sperm cells and seminal plasma by spectrophotometry. All sperm characteristics evaluated using flow cytometry were affected by cryopreservation. After freezing-thawing, there was significant (P < 0.01) reduction in sperm membrane integrity, sperm acrosome integrity and mitochondrial activity. Following cryopreservation, MDA concentration significantly increased in chicken seminal plasma and spermatozoa (P < 0.01, P < 0.05). The CAT activity in seminal plasma significantly decreased (P < 0.05), while intracellular activity of this enzyme did not significantly change in frozen-thawed semen. In seminal plasma of frozen-thawed semen the significant increase (P < 0.01) in GPx activity was detected. Whereas GPx activity in spermatozoa remained statistically unchanged after thawing. The SOD activity significantly increased (P < 0.01) in cryopreserved seminal plasma with simultaneous decrease (P < 0.01) of its activity in cells. In conclusion, this is probably the first report describing the level of antioxidant enzymes in frozen-thawed avian semen. The present study showed that the activity of CAT, GPx and SOD in chicken semen was affected by cryopreservation, what increased the intensity of lipid peroxidation (LPO). Catalase appeared to play an important role in the sperm antioxidant defense strategy at cryopreservation since, opposite to SOD and GPx, its content was clearly reduced by the cryopreservation process. Change in the antioxidant defense status of the chicken spermatozoa and surrounding seminal plasma might affect the semen quality and sperm fertilizing ability.     

Assessment of fresh and frozen-thawed boar semen using an Annexin-V assay: a new method of evaluating sperm membrane integrity

Detection of early changes in the sperm plasma membrane during cryopreservation is of utmost importance when designing freezing protocols. The present study evaluated the ability of an Annexin-V binding assay to detect early changes in sperm membrane integrity using flow cytometry (FC) in two different portions of the boar ejaculate, in cryopreserved semen. Using a split sample design, sperm motility was evaluated in fresh (controls) and frozen-thawed (FT) samples, both subjectively and by means of a computer-assisted motility assessment (CASA) system, while membrane integrity was assessed using Annexin-V (A) and propidium iodide (PI) staining in spermatozoa derived from the first sperm-rich fraction (Portion I) or the remaining ejaculate (Portion II). The A/PI technique revealed four sperm subpopulations, two PI negative (either A- (alive) or A+ (apoptotic)); and two PI positive (dead cells), either A+ (dead, late apoptotic or early necrotic cells) or A- (dead, late necrotic cells). Significant differences were found between the two portions of the ejaculate in the fresh (control) and FT samples. In the fresh controls, significantly more live, nonapoptotic spermatozoa (A-/PI-) were present in Portion I than in Portion II (P<0.001). Although apoptotic spermatozoa were detected in both semen portions, the frequency of live, early apoptotic (A+/PI-) cells was significantly lower in Portion I than in Portion II (P<0.001). Irrespective of the ejaculate portion considered, freezing and thawing significantly decreased the mean percentages of live spermatozoa (P<0.01), and dramatically increased the percentages of apoptotic or early necrotic cells (P<0.01), but not of early apoptotic cells (N.S.). The latter finding might suggest that apoptotic changes due to cryopreservation using the procedures applied in this trial are transient and lead to cell death. In conclusion, the Annexin-V binding assay was able to detect deleterious changes in the sperm plasma membrane at an earlier point than PI staining, thus representing a novel approach to investigating membrane integrity in this species. The finding that fewer spermatozoa in Portion I of the ejaculate showed early apoptosis post-freezing, suggests boar spermatozoa in this portion of the seminal plasma are less sensitive to the stress induced by cryopreservation.     

Effect of butylated hydroxytoluene on bull spermatozoa frozen in egg yolk-citrate extender

Effect of butylated hydroxytoluene (BHT) on the quality of frozen-thawed Holstein bull sperm in egg yolk-citrate extender was evaluated. High quality semen samples were diluted in egg yolk-citrate extenders containing 0, 0.5, 1, 2 and 4 mM BHT and subsequently frozen in liquid nitrogen. Pre-freeze and post-thaw progressive motility, and live/dead ratio and acrosomal integrity of 200 sperm per slide, stained with Eosin-Nigrosin and Giemsa, were evaluated at 0, 2 and 4 h after thawing. There was a significant decrease in forward motility, livability and acrosomal integrity up to 4 h after thawing the frozen sperm. Upon thawing, sperm progressive motility at 1 mM BHT was significantly (P<0.001) higher (11%) than other groups, but percentages of live sperm and live sperm with intact acrosomes were higher at 0.5 mM BHT. BHT at 4 mM BHT caused a significant decrease in motility, livability and acrosomal integrity during preparatory stages of freezing sperm. It is concluded that 0.5-1.0 mM BHT can be beneficial for freezing Holstein bull spermatozoa in egg yolk-citrate diluent, when inseminated immediately after thawing.     

A triple-stain flow cytometric method to assess plasma- and acrosome-membrane integrity of cryopreserved bovine sperm immediately after thawing in presence of egg-yolk particles

Simultaneously evaluating postthaw viability and acrosome integrity of spermatozoa by flow cytometry would provide a valuable testing tool in both research and routine work. In the present study, a new triple-stain combination was developed for the simultaneous evaluation of viability and acrosome integrity of bovine sperm processed in egg yolk-based extender by flow cytometer. SYBR-14 and propidium iodide (PI) enabled the discrimination of sperm cells from egg yolk and debris particles, which was instrumental for the flow cytometric analyses of frozen-thawed bovine sperm, because it implied that washing steps to remove egg yolk were no longer required. In addition, phycoerythrin-conjugated peanut agglutinin (PE-PNA) was used to discriminate acrosome-damaged/reacted sperm cells from acrosome-intact cells. Repeatability was calculated using two processed ejaculates of 10 bulls. Three straws per batch were analyzed in duplicate measurements. Method-agreement analysis between the SYBR-14/PE-PNA/PI and fluorescein isothiocyanate (FITC)-conjugated PNA was performed, with FITC-PNA/PI staining being carried out on 14 frozen-thawed semen samples immediately after thawing and after a 3-h incubation at 37 degrees C. The British Standards Institution repeatability index of the SYBR-14/PE-PNA/PI combination was 2.6%. On average, the FITC-PNA/PI method showed a 6.3% overestimation of the live and acrosome-intact sperm cell subpopulation. In conclusion, the new triple-stain combination is highly repeatable and easy to use in routine application, and it provides a more precise estimate for the rate of sperm cells with intact head membrane and acrosome compared to the generally used and validated FITC-PNA/PI staining.     

Assessment of Pisum sativum agglutinin in identifying acrosomal damage in stallion spermatozoa.

The use of fluorescein-conjugated Pisum sativum agglutinin (FITC-PSA) was evaluated for its ability to distinguish acrosome-intact from acrosome-damaged stallion spermatozoa. Incubation of fresh (acrosome-intact) and frozen-thawed (acrosome-damaged) spermatozoa with FITC-PSA resulted in acrosome-intact spermatozoa that exhibited no fluorescence, while acrosome-damaged spermatozoa exhibited fluorescent staining over the rostral portion of the head and equatorial segment. Experiments using mixtures of various ratios of acrosome-intact and acrosome-damaged spermatozoa determined the precision (intrasample coefficient of variation), and linearity (increased percentage of spermatozoa with PSA binding, with increased percentage of frozen-thawed spermatozoa in a sample) of FITC-PSA binding. The binding of FITC-PSA increased in samples as the portion of frozen-thawed (acrosome-damaged) to fresh (acrosome-intact) spermatozoa increased. A positive correlation existed (r = 0.98, P less than 0.05) between the percentage of FITC-PSA bound sperm and the proportion of damaged spermatozoa added to a sample. Location of PSA lectin binding on acrosome-damaged spermatozoa, determined by electron microscopy using gold-conjugated PSA, was to components of the outer acrosomal membrane and acrosomal matrix. These results demonstrate that FITC-PSA binding may be useful in determining acrosomal integrity of fresh and frozen-thawed stallion spermatozoa.     

Flow cytometric assessment of fresh and frozen-thawed Canada goose (Branta canadensis) semen

The present study was conducted to investigate spermatozoal membrane integrity, acrosome integrity, mitochondrial activity, and chromatin structure in fresh and frozen-thawed Canada goose (Branta canadensis) semen with the use of the flow cytometry. The experiment was carried out on ten, 2-year-old, Canada goose ganders. The semen was collected twice a week, by a dorso-abdominal massage method, then pooled and subjected to cryopreservation in straws, in a programmable freezing unit with the use of dimethyloformamide (DMF) as a cryoprotectant. Frozen samples were thawed in a water bath at 60 °C. The freezing procedure was performed ten times. For the cytometric analysis the fresh and the frozen-thawed semen was extended with EK extender to a final concentration of 50 million spermatozoa per mL. Sperm membrane integrity was assessed with SYBR-14 and propidium iodide (PI), acrosomal damage was evaluated with the use of PNA-Alexa Fluor^®488 conjugate, mitochondrial activity was estimated with Rhodamine 123 (R123), and spermatozoal DNA integrity was measured by the sperm chromatin structure assay (SCSA). The cryopreservation of Canada goose semen significantly decreased the percentage of live cells, from 76.3 to 50.4% (P < 0.01). Moreover, we observed the significant decrease in the percentage of live spermatozoa with intact acrosomes (P < 0.01), but we did not detect significant changes in the percentage of live spermatozoa with ruptured acrosomes. However, after thawing 50% of Canada goose live spermatozoa retained intact acrosomes. Furthermore, the percentage of live spermatozoa with active mitochondria was significantly lower in the frozen-thawed semen than in the fresh semen (P < 0.05). Nevertheless, after thawing the mitochondria remained active in almost 50% of live cells. In the present study, we observed no changes in the percentage of sperm with fragmented DNA after freezing-thawing of Canada goose semen. In conclusion, the present study indicates that even the fresh Branta canadensis semen might have poor quality, the cryopreservation of its semen did not provoke spermatozoal DNA defragmentation and half of the spermatozoa retained intact acrosomes and active mitochondria after freezing-thawing.     

Analysis of sperm cell viability, acrosomal integrity, and mitochondrial function using flow cytometry

A triple staining procedure was developed to evaluate bull spermatozoa using flow cytometry. Flow cytometric estimates of cell viability, measured by propidium iodide (PI) exclusion, and acrosomal integrity, measured by Pisum sativum agglutinin (PSA) binding acrosomal contents, were equivalent to estimates made by using standard laboratory assays. Mitochondrial function, measured by rhodamine 123 (R123) fluorescence, was depressed by the mitochondrial inhibitors rotenone (64%) or monensin (52%), establishing that mitochondrial damage can be detected. Dilauroylphosphatidylcholine (PC12) or lysophosphatidylcholine (LPC) was used to destabilize sperm membranes. When challenged with 15-30 microM PC12, selective exposure of PSA binding sites occurred without induction of PI uptake or loss of R123 staining. However, PC12 concentrations greater than 60 microM resulted in a loss of R123 fluorescence intensity. In contrast, greater than 1200 microM LPC was required to expose PSA binding sites, which also resulted in PI uptake. By using flow cytometry, these three stains in combination can be used to correlate three different features simultaneously on individual spermatozoa and assay thousands of cells per sample without extensive preparation.     

Prognostic value of canine frozen-thawed semen parameters on in vitro sperm-oocyte interactions

Combining the data from conventional semen analysis with oocyte penetration assays should improve the assessment of the fertilizing ability of a semen sample. Thus, the objective of the present study was to evaluate the prognostic value of various semen parameters on the in vitro interactions between frozen-thawed canine sperm and homologous oocytes. Ten ejaculates from five stud dogs (two ejaculates/dog) were collected by digital manipulation. Semen samples were evaluated, extended in Tris-egg yolk-glycerol, frozen and stored in liquid nitrogen, and thawed several weeks later. Samples were evaluated for motility and sperm populations by computer-aided semen analysis (CASA), plasma membrane integrity (carboxy-fluorescein diacetate and propidium iodide), and sperm morphology (Bengal Rose). Thawed spermatozoa were also incubated with homologous oocytes for 18 h in an atmosphere of 5% CO(2) and 95% air at 38 degrees C and sperm-oocyte interactions were evaluated. Simple linear regression models were calculated, with sperm parameters as independent variables and sperm-oocyte interactions as the dependent variable. There were significant associations between: percentage of oocytes bound to spermatozoa and beat cross frequency (BCF; R(2)=63%); percentage of oocytes that interacted with spermatozoa and BCF (R(2)=73%); and number of penetrated spermatozoa and velocity average pathway (VAP; R(2)=64%) and velocity straight line (VSL; R(2)=64%). Although plasma membrane integrity and sperm morphology had little prognostic value for in vitro interactions between canine frozen-thawed sperm and homologous oocytes, some motility patterns (evaluated by CASA) were predictive of in vitro sperm-oocyte interactions.     

Effects of non-esterified fatty acids on bovine granulosa cells and developmental potential of oocytes in vitro

Cryopreservation of bull semen is sub-optimal, causing cell death of a majority of spermatozoa. Even the surviving cells are affected post-thaw, either structurally or functionally. The aim of this study was to investigate the sequence of events that take place when sperm plasma membrane and acrosome deteriorate during a 4 h incubation period post-thaw, with special attention paid to the acrosome status of dying cells. Frozen-thawed semen of six AI dairy bulls was used. Three straws per batch were pooled and incubated at 37 °C. Sub-samples were taken at 30 min intervals and stained with SYBR 14, propidium iodide (PI) and phycoerythrin-conjugated peanut agglutinin (PE-PNA). Plasma membrane and acrosome integrity were measured by flow cytometry. The experiment was repeated three times. Immediately after thawing, only 3.45% of the dying cells showed acrosomal exocytosis. This number increased dramatically during incubation, reaching 67% after 4 h. Within the intact cell population, the overall decrease in viability and acrosome integrity was kept at five percentage points. Flow cytometry and the triple fluorochrome combination presented a detailed picture of the time course in plasma membrane and acrosome deterioration of frozen-thawed bull semen. The results are expected to be useful for monitoring new cryopreservation protocols.     

Effect of preincubation of cryopreserved porcine epididymal sperm

Preincubation of spermatozoa is important for capacitation and successful fertilization in vitro. The effects of preincubation time on frozen-thawed boar epididymal spermatozoa as measured by sperm motility, acrosomal integrity and fertilization ability in vitro were examined. Epididymal spermatozoa were collected from three Large White boars and frozen. The thawed spermatozoa were preincubated for 0, 15, 30, 60 and 120 min. Their motility was evaluated by a sperm motility analyzer and then the sperm motility indexes (SMIs) were calculated. The status of their acrosomal integrity was evaluated by triple-staining. Then, their fertilization ability was examined by in vitro fertilization (IVF) using porcine oocytes matured in vitro. SMIs of spermatozoa and the incidences of acrosome-intact live spermatozoa from the three boars were high (21-39 for SMI and 50-61% for acrosome-intact live spermatozoa) just after thawing, but both decreased as the duration of preincubation was prolonged (2-10 and 23-40%, respectively). The incidences of sperm penetration were high (61-89% of inseminated oocytes) when the sperm were preincubated for 0-60 min. However, sperm penetration decreased as the preincubation period was prolonged to 120 min. The degree of this decrease differed depending upon the boar from which the spermatozoa were obtained (10-72%). When the two parameters, sperm motility and acrosomal integrity, were analyzed statistically, the latter parameter rather than the former one showed a significant effect on penetration ability in vitro after each duration of preincubation. These results suggest that preincubation of frozen-thawed boar epididymal spermatozoa is not required for IVF and also that the maintenance of acrosomal integrity in unreacted status, rather than the maintenance of sperm motility, is important for fertilization ability after thawing and during preincubation of boar epididymal spermatozoa.     

Cryopreservation of bull spermatozoa alters the perinuclear theca

The perinuclear theca (PT) is involved in several important sperm functions leading to fertilization. The objective of this study was to investigate the effect of cryopreservation of bull spermatozoa on the integrity of the PT and the relationship between PT integrity and semen characteristics. Semen from seven bulls was evaluated before and after cryopreservation, comparing the integrity of the plasma membrane (hypo-osmotic test), percentage of live and dead spermatozoa (triple stain), acrosome integrity (triple stain) and the integrity of the PT (negative stain by electron microscopy). Cryopreservation of bull semen caused substantial damage to the PT; the proportion of spermatozoa with a damaged PT was 15.2% versus 52.5% (P<0.05) in fresh versus frozen-thawed spermatozoa, respectively. Furthermore, on average, 67.4% (range, 64-72%) of fresh spermatozoa were live, compared to 53.1% (range, 49-58%) for frozen-thawed spermatozoa; there was an inverse correlation between the percentage of live spermatozoa and the percentage with damage to the PT. Although 59.1% of frozen-thawed spermatozoa had an intact acrosome, only 43.7% of them still remained alive. In frozen-thawed semen, there was a high correlation (r=0.69) between live spermatozoa with an intact acrosome and spermatozoa that maintained an intact PT. In conclusion, freezing/thawing of bull spermatozoa altered the PT and maintaining PT integrity may be necessary to maintain acrosome integrity.     

Effect of cryopreservation of zona-binding capacity of canine spermatozoa in vitro

The hemizona assay (HZA) was used as a functional test for zona pellucida binding capacity of fresh and frozen-thawed canine spermatozoa. We investigated 30 ejaculates from 3 dogs with sperm motility > 70% and sperm concentration > 5.10(8) cells per ejaculate with up to 20% abnormal and dead spermatozoa. Fifteen ejaculates were each divided into 2 portions: one portion was used for analysis of fresh semen, the other for cryopreserved semen. On the day of the experiments, in vitro-matured canine oocytes were bisected into 2 equal hemizonae. One half of the hemizonae were coincubated with fresh capacitated (control) spermatozoa, the other half of the hemizonae were coincubated with frozen-thawed (tested) spermatozoa at final concentration of 1 to 2 x 10(6) cells/mL in 200 microL droplets of BSA-supplemented Toyoda, Yokojama and Hoshi (TYH) medium at 37 degrees C, 5%, CO2 for 1 h. Sperm suspensions were examined kinesigraphically for post capacitation type of movement. The Student's t-test was used to compare differences between semen parameters. The data on HZA binding activity of fresh and frozen-thawed canine semen were analyzed by ANOVA and then by the Newman-Keuls multiple range method. The results showed no differences in the initial semen quality parameters among the 3 dogs. After thawing, the semen from Dog 1 and Dog 2 demonstrated relatively uniform sperm parameters, while in Dog 3 sperm motility, and viability and the percentage of morphologically normal spermatozoa were significantly decreased. The binding activity of frozen-thawed spermatozoa from the 3 dogs was significantly reduced (29.40 +/- 9.02, 18.60 +/- 3.30, 8.20 +/- 4.49) compared with that (107.20 +/- 19.22, 109.80 +/- 20.75, 78.20 +/- 12.47; P < 0.01) of fresh spermatozoa. The results showed that semen samples with similar sperm parameters prior to cryopreservation displayed different sperm zona-binding capacity after freezing. The HZI (value of sperm binding capacity of frozen-thawed vs fresh semen samples) was higher in Dog 1 (27.43) than in Dog 2 (16.90) or Dog 3 (10.40), and thus confirmed the variation of zona binding activity after thawing between dogs. The freezability of individual dog semen is discussed. In conclusion HZA may be a valuable tool for evaluating the post-thaw fertilizing ability of canine spermatozoa.     

Flow cytometry and ultrastructure of cryopreserved red seabream (Pagrus major) sperm

The objectives were to assess motility, fertilizing capacity, structural integrity, and mitochondrial function in fresh versus frozen-thawed (15% DMSO was used as a cryoprotectant) sperm from red seabream (Pagrus major). Mean (+/-S.D.) rates of motility, fertilization and hatching of frozen-thawed sperm were 81.0+/-5.4, 92.8+/-1.9, and 91.8+/-5.2%, respectively; for fresh sperm, they were 87.5+/-7.7, 95.8+/-2.4, and 93.8+/-4.2%. Although motility was lower in frozen-thawed versus fresh sperm (P<0.05), there was no effect (P>0.05) of cryopreservation on fertilization or hatching. Based on scanning and transmission electron microscopy, 77.8+/-5.6% of fresh sperm had normal morphology, whereas for frozen-thawed sperm, 63.0+/-7.2% had normal morphology, 20.6+/-3.1% were slightly damaged (e.g. swelling or rupture of head, mid-piece and tail region as well as mitochondria), and 16.4+/-4.2% were severely damaged. Sperm were stained with propidium iodide and Rhodamine 123 to assess plasma membrane integrity and mitochondrial function, respectively, and examined with flow cytometry. For fresh sperm, 83.9% had an intact membrane and functional mitochondria, whereas for frozen-thawed sperm, 74.8% had an intact membrane and functional mitochondria, 12.7% had a damaged membrane, 9.9% had nonfunctional mitochondria, and 2.6% had both a damaged membrane and nonfunctional mitochondria. In conclusion, ultrastructure and flow cytometry were valuable for assessment of frozen-thawed sperm quality; cryopreservation damaged the sperm but fertilizing ability was not significantly decreased.