Cryopreservation and Thawing Is Associated with Varying Extent of Activation of Apoptotic Machinery in Subsets of Ejaculated Human Spermatozoa1

We investigated the impact of cryopreservation and thawing on levels of caspases-3, -8, and -9 activity, intact mitochondrial membrane potential (Deltapsim), and DNA fragmentation in human spermatozoa. Eleven pools of cryopreserved and eight pools of fresh semen samples were examined. Mature and immature fractions were separated on a two-layer density gradient (47% and 90%) and further subdivided based on the externalization of phosphatidylserine and its binding to annexin V-labeled superparamagnetic microbeads (ANMB). Levels of activated caspases were assessed using fluorescein-labeled inhibitors of caspases (FLICA), Deltapsim using a lipophilic cationic dye, and DNA fragmentation by the terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) assay. Cryopreservation was significantly associated with activation of caspases-3, -8, and -9, as well as disruption of the mitochondrial membrane potential but no significant changes were observed in DNA fragmentation. In mature sperm, caspase activation was only detected in the ANMB+ fraction, whereas in immature sperm, both ANMB+ and ANMB- fractions showed activated caspase levels. In ANMB+ immature sperm, apoptosis seemed to be triggered by a surface ligand-receptor mechanism as well as by disruption of mitochondria, whereas in ANMB- immature sperm, apoptosis was induced by activation of caspase-9 following loss of intact Deltapsim. These results demonstrate that selection of annexin V-negative mature spermatozoa might be of clinical relevance for fertility preservation, as this sperm fraction shows no activated apoptosis during the cryopreservation process.

Prognostic value of spermatological parameters as predictors of in vitro fertility of frozen-thawed bull semen

Cryopreservation imposes irreversible damage to sperm membranes, such as swelling and disruption of plasma and acrosome membranes, changes in membrane fluidity, altered influx of calcium, and changes in enzyme activity. Morphological integrity of the sperm plasma membrane has been widely studied using different techniques, including exposure of spermatozoa to hypoosmotic solutions (provides information concerning the biochemical activity of the sperm tail membrane), supravital test using eosin stain (yields information regarding sperm head membrane integrity), and Trypan-blue Giemsa stain (TBG; reveals both sperm plasma membrane and acrosome integrity). The objective of this study was to combine these tests in order to provide information about the integrity of the whole sperm surface, as well as acrosome status, and determine if the results of these tests were associated with sperm in vitro fertilizing ability. Stepwise regression analyses yielded a model in which fertility (maintain variable) was expressed as a combination of the results of different spermatological parameters (independent variables). The results of a test combining supravital eosin staining of samples previously submitted to hypoosmotic swelling test (STHOS) accounted for the greatest proportion of variation in fertilization rates (78%). Inclusion of the results of dual staining with TBG increased the proportion of variation in fertility rate that could be accounted for to 82%. Therefore, sperm plasma membrane integrity and function, and acrosome integrity can be considered important variables for normal sperm function and STHOST and TBG could be used for the prognosis of the potential fertility of bovine semen samples used for IVF or AI.

Evaluation of chromatin integrity in human sperm using acridine orange staining with different fixatives and after cryopreservation

Staining of cells with acridine orange (AO) has been widely accepted as a predictor of DNA damage in many cell types. Because of variability of protocols used in previous studies, the AO staining technique has not been widely accepted as a screening test to predict DNA damage in human sperm. In order to further validate the use of AO staining, sperm were evaluated using numerous variations in the staining protocol. This study also elucidated the effects of cryopreservation on sperm DNA. Sperm fixation in Carnoy's solution showed significantly (P < 0.05) more DNA damage (29.9 +/- 4.5%) than 2% glutaraldehyde (14.4 +/- 2.1%), 4% paraformaldehyde (5.5 +/- 1.7%), no fixation (15.8 +/- 4.3%) but did not differ from Diff Quik solution (19.2 +/- 5.8%). No difference was observed for sperm DNA damage assessment using a 0.2 m (15.5 +/- 3.2%) or 0.3 m (14.9 +/- 3.3%) concentration of Na(2)HPO(4).7H(2)O in the AO staining solution. Frozen-thawed semen samples showed increased damage to sperm DNA under both Carnoy's (fresh: 10.9 +/- 1.3%; frozen: 30.8 +/- 2.9%; P < 0.05) and Diff Quik fixation (fresh: 6.2 +/- 0.8; frozen: 17.1 +/- 2.5%P < 0.05). Present data also showed that spermatozoa from some individuals are more prone to DNA damage after freezing and thawing procedures than others. In conclusion, Carnoy's fixative provides a better predictive value for DNA damage to sperm using AO staining. Additionally, cryopreservation increased damage to the sperm DNA.

Role of cholesterol, calcium, and mitochondrial activity in the susceptibility for cryodamage after a cycle of freezing and thawing

OBJECTIVE

To correlate the levels of two concrete sperm markers, cholesterol and Ca(+2), together with mitochondrial activity on raw semen samples with the post-thaw recovery of spermatozoa with progressive motility on human sperm samples as the first step to improve sperm cryostorage protocols.

DESIGN

Controlled prospective research project.

SETTING

Private and university-affiliated setting.

PATIENT(S)

Semen samples from 122 males attending our center for infertility (n = 47) or semen donation (n = 75) were studied.

INTERVENTION(S)

The mean basic semen parameters of the 122 semen samples studied before and after the freezing and thawing process.

MAIN OUTCOME MEASURE(S)

We determined Ca(+2) and cholesterol concentrations on seminal plasma by enzymoimmunoanalysis techniques, intracellular Ca(+2) concentrations, cholesterol concentrations in the sperm plasma membrane and mitochondrial activity by fluorometry.

RESULT(S)

Cholesterol concentration in seminal plasma and cholesterol contents in the sperm membrane and mitochondrial activity were studied. No correlations were initially found to be of statistical significance. Regarding seminal plasma and intracellular sperm Ca(+2) concentrations, a statistically significant negative correlation was found (P=.036 and P=.016).

CONCLUSION(S)

Higher cholesterol contents do not appear to protect sperm against cryodamage. Conversely, Ca(+2) equilibrium appears to be essential for a good post-thaw recovery. Mitochondrial activity is not reflecting the possibilities of sperm survival and is probably not a good indicator of the sperm metabolism.

Detrimental effects of cryopreservation of loach (Misgurnus fossilis) sperm on subsequent embryo development are reversed by incubating fertilised eggs in caffeine

Cryopreservation can cause changes to the genetic material of cells, but the mechanism and significance of these changes are still unknown. It has been suggested that some damage to the sperm genome could be repaired by the DNA repair system of the oocyte after fertilisation. Caffeine has been reported to be an inhibitor of such repair processes. In this study the effect of caffeine on the repair system of Loach (Misgurnus fossilis) oocytes was investigated. Loach eggs were fertilised using cryopreserved sperm. Embryos derived from cryopreserved sperm were exposed to 2.6mM caffeine for 1h after fertilisation. The experiments were carried out using 32313 embryos from four females and eight males. Embryo survival was evaluated for 46 h until the hatching stage. Reduction in embryo survival after 20th stage is generally believed to result from the failure in the genome function of embryos. Cryopreservation of sperm significantly decreased embryo survival (53.4+/-2.8% compared to 68.4+/-2.8% of control) after the 20th stage. However, the addition of caffeine to the embryos derived from cryopreserved sperm, in contrast to our expectation, significantly increased survival of loach embryos (70.9+/-2.8% compared to 53.4+/-2.8% of embryos derived from cryopreserved sperm in the absence of caffeine). The effect of individual donors of sperm and eggs on overall embryo survival was also studied. Whilst no significant differences were observed between males, the effect of individual females on embryo survival was significant. The analysis of embryo survival at different developmental stages showed that embryo survival both before and after 20th stage decreased with embryo development. When fresh sperm were used the decline of embryo survival with development was more pronounced compared with those embryos derived from cryopreserved sperm. Possible explanations of these effects are presented.

The role of international transport of equine semen on disease transmission

Despite the numerous benefits of having the capability to transport semen internationally, there are serious potential ramifications if that semen is contaminated with a communicable disease. Bacteria: Many commensal bacteria colonize the exterior of the stallion penis and are not regarded as pathogenic. They may be cultured from an ejaculate. Alterations of the normal bacterial flora on the exterior genitalia may cause the growth of opportunistic bacteria such as Klebsiella pneumonia, Pseudomonas aeruginosa, Streptococcus zooepidemicus, which, if inseminated, may cause infertility in susceptible mares. Contagious equine metritis (CEM), a highly transmissible, true venereal disease of horses, is caused by the gram-negative coccobacillis, Taylorella equigenitalis. Even with the use of rigorous testing protocols, the current techniques used may not ensure accuracy of results. Viruses: Equine coital exanthema (equine herpes virus type 3; EHV-3) is a highly contagious virus that causes painful lesions on the stallion's penis and mare's vulva. Although it is primarily transmitted through coitus, infected fomites have also been implicated in its spread. Therefore, it is possible that the virus can potentially be transmitted to the ejaculate through penile contact with an artificial vagina or sleeve. Equine arteritis virus appears to be becoming more prevalent in recent years. The most common method of transmission is through respiratory disease, but the organism can also be shed in the semen of asymptomatic stallions. Equine infectious anemia virus has also been found to be present in the semen of an infected stallion, although no evidence exists at this time that there is venereal transmission of this disease. Protozoa: Dourine, caused by Trympanosoma equiperidum, is a venereal disease found only in Africa, South and Central America and the Middle East. Serological testing using complement fixation is recommended for diagnosis. Piroplasmosis, a disease caused by Babesia equi or by a less severe strain, Babesia caballi, has received a great deal of attention in recent years due to the increased transfer of horses between countries. It is considered to be enzootic in many areas of the southern US, and is found throughout the world. The protozoal agent is most often spread by ticks, but mechanical transmission has also been documented; therefore, there is concern for venereal transmission if blood from an infected horse contaminates the semen.

Effect of sperm cryopreservation on sperm DNA stability and progeny development in rainbow trout

This study was carried out to test how sperm cryopreservation affected nuclear DNA stability and whether progeny development was modified when eggs were fertilized with cryopreserved spermatozoa. The "comet assay" (alkaline single-cell gel electrophoresis assay) was adapted to trout spermatozoa to estimate DNA stability as measured by alkali-induced DNA strand break formation. Because trout eggs develop in water after fertilization (oviparous species) and that eggshell is easy to clear up after fixative treatment, progeny development was assessed from the blastodisc flattening stage of the embryos to the first feeding stage of the hatched fries by direct observation. All parameters under study were analyzed on each sperm and comparisons between parameters were made using paired data. Freeze-thawing of sperm slightly but significantly increased the percentage of nuclei showing altered DNA after comet assay. This increase was correlated to the decrease in fertilization rates of sperm, but the absolute percentage of altered nuclei was not predictive of the absolute fertilization ability of sperm. Assessment of progeny development showed that survival rate and abnormality rate obtained after fertilization with cryopreserved sperm were not different from those obtained with fresh sperm. It is concluded that trout sperm cryopreservation only slightly affected sperm DNA stability and that the use of cryopreserved spermatozoa did not impair offspring survival and quality.

Is cryopreservation a homogeneous process? Ultrastructure and motility of untreated, prefreezing, and postthawed spermatozoa of Diplodus puntazzo (Cetti)

This study subdivides the cryopreservation procedure for Diplodus puntazzo spermatozoa into three key phases, fresh, prefreezing (samples equilibrated in cryosolutions), and postthawed stages, and examines the ultrastructural anomalies and motility profiles of spermatozoa in each stage, with different cryodiluents. Two simple cryosolutions were evaluated: 0.17 M sodium chloride containing a final concentration of 15% dimethyl sulfoxide (Me(2)SO) (cryosolution A) and 0.1 M sodium citrate containing a final concentration of 10% Me(2)SO (cryosolution B). Ultrastructural anomalies of the plasmatic and nuclear membranes of the sperm head were common and the severity of the cryoinjury differed significantly between the pre- and the postfreezing phases and between the two cryosolutions. In spermatozoa diluted with cryosolution A, during the prefreezing phase, the plasmalemma of 61% of the cells was absent or damaged compared with 24% in the fresh sample (P < 0.001). In spermatozoa diluted with cryosolution B, there was a pronounced increase in the number of cells lacking the head plasmatic membrane from the prefreezing to the postthawed stages (from 32 to 52%, P < 0.01). In both cryosolutions, damages to nuclear membrane were significantly higher after freezing (cryosolution A: 8 to 23%, P < 0.01; cryosolution B: 5 to 38%, P < 0.001). With cryosolution A, the after-activation motility profile confirmed a consistent drop from fresh at the prefreezing stage, whereas freezing and thawing did not affect the motility much further and 50% of the cells were immotile by 60-90 s after activation. With cryosolution B, only the postthawing stage showed a sharp drop of motility profile. This study suggests that the different phases of the cryoprocess should be investigated to better understand the process of sperm damage.

Generation of reactive oxygen species by equine spermatozoa

OBJECTIVE

To characterize generation of reactive oxygen species (ROS) by equine spermatozoa.

SAMPLE POPULATION

Multiple semen samples collected from 9 stallions.

PROCEDURE

Equine spermatozoa were separated from seminal plasma on a discontinuous polyvinylpyrrolidone (PVP)-coated silica gradient and resuspended in a modified Tyrode albumin-lactate-pyruvate medium. Amount of hydrogen peroxide (H2O2) generated was assayed by use of a 1-step fluorometric assay, using 10-acetyl-3,7-dihydroxyphenoxazine as a probe for detection of H2O2 in a microplate assay format. Concentration of H2O2 was determined by use of a fluorescence microplate reader.

RESULTS

Amount of H2O2 generated increased significantly with time and spermatozoa concentration for live and flash-frozen spermatozoa, and amount of H2O2 generated was significantly greater for flash-frozen than for live spermatozoa. Addition of the reduced form of nicotinamide adenine dinucleotide phosphate (NADPH) significantly increased generation of H2O2 by live and flash-frozen spermatozoa. Addition of a calcium ionophore also significantly increased the amount of H2O2 generated by live spermatozoa but did not have an effect on amount of H2O2 generated by flash-frozen spermatozoa. Abnormal equine spermatozoa generated significantly greater amounts of H2O2 than did normal spermatozoa.

CONCLUSIONS AND CLINICAL RELEVANCE

Equine spermatozoa generate ROS in vitro, possibly via a NADPH-oxidase reaction. Spermatozoa damaged during flash-freezing or morphologically abnormal spermatozoa generated significantly greater amounts of ROS than did live or morphologically normal spermatozoa. Damaged and abnormal spermatozoa generate greater amounts of ROS that may contribute to reduced fertility or problems related to semen preservation.

The effect of various capacitation active compounds and capacitation time on the in vitro fertility and protein tyrosine phosphorylation profiles of bovine sperm

In this paper the effects of capacitation and fertilisation stimulating compounds (heparin, caffeine, glucose, D-penicillamine, bovine serum (BOS), bovine serum albumin (BSA), polyvinyl alcohol (PVA)) were analysed in several in vitro fertilisation protocols. Attention was paid to the rate of penetrated oocytes, kinetics of penetration and to polyspermic fertilisation. Cryopreserved bovine sperm and in vitro matured bovine oocytes were used throughout all the fertilisation experiments. As detected in the first 8 h fertilisation experiment with non-incubated sperm, the supplementation of medium with heparin, BOS and glucose supported the fertilisation rate most effectively (100%), including the kinetics of pronuclei formation (52.4%). The absence of BOS resulted in a decreased fertilisation rate (62.7%) as well as a delay in pronuclei formation (13.6%), similar to that after substitution of heparin with caffeine (73.0% and 25.4%, respectively). The penetration rate in the control medium with BOS (without heparin and caffeine) was surprisingly high, especially in medium without glucose (62.2%). The positive effect of glucose on sperm penetration was observed mainly in a chemically defined medium with PVA. High polyspermy rates were observed throughout all experiments in the media containing heparin or caffeine and BOS as the macromolecular component. D-Penicillamine was not shown to be a fertilisation-stimulating molecule. However, as detected in the second experiment in which oocytes were fertilised with 5 h incubated sperm, its positive effect on the prolongation of a fertile life span of cryopreserved spermatozoa was significant. The presence of either caffeine or heparin in the fertilisation medium (FM) with BOS during sperm incubation induced tyrosine phosphorylation of an approximately 90 kDa protein, detected after 5 h of sperm incubation. The absence of BOS reduced tyrosine phosphorylation of this protein in fertilisation medium with heparin. The percentage of motile spermatozoa and those with intact acrosomes were monitored throughout all experiments.

Protection of boar spermatozoa from cold shock damage by 2-hydroxypropyl-beta-cyclodextrin

This study examined whether 2-hydroxypropyl-beta-cyclodextrin (HBCD) could play a role in protecting spermatozoa from cold shock, as judged by motility parameters, intact acrosomes, and membrane integrity. Motility parameters were assessed by a computer-assisted sperm motility analysis (CASA) system, and the acrosome and membrane integrity were evaluated by fluorescent staining with FlTC-labeled peanut agglutinin and SYBR-14 plus Propidium Iodide, respectively. The addition of HBCD to the BF5 extender significantly increased the percentages of spermatozoa with intact acrosomes and increased membrane integrity after cold shock. The motility, progressive motility, and progressive velocity of the cold-shocked spermatozoa in the presence of HBCD were significantly higher than in the absence of HBCD. In contrast, further supplement of HBCD with cholesterol-3-sulfate (a cholesterol analogue) resulted in a decrease in all the aforementioned criteria, suggesting that the ability of HBCD to protect spermatozoa from cold shock injury is blocked by saturating the cholesterol binding sites of HBCD. It is therefore concluded that HBCD protects spermatozoa against cold shock injury, possibly due to its ability to remove membrane cholesterol.

The causes of reduced fertility with cryopreserved semen

Cryopreserved mammalian semen is generally acknowledged to have an impaired fertility by comparison with fresh semen. The reduction arises from both a lower viability post-thaw and sublethal dysfunction in a proportion of the surviving subpopulation. The reasons for the loss of fertility are various. In this paper, factors affecting the proportion of survivors (e.g., cold shock susceptibility, cooling rate, diluent composition and osmotic stress) and factors influencing functional status of survivors (e.g., membrane stability, oxidative damage, membrane receptor integrity, nuclear structure) are briefly reviewed. The possible effects of cryopreservation on the role of spermatozoa in the early stages of embryogenesis are considered. In the light of this review, indications for new approaches for improving the performance of cryopreserved semen are offered.

Cryodamage to plasma membrane integrity in head and tail regions of human sperm

AIM

To investigate the effect of cryopreservation on the plasma membrane integrity in the head and tail regions of individual sperm, and the relationship between intact cryopreserved sperm and its motility and zona-free hamster oocyte penetration rate.

METHODS

The eosin Y exclusion and the hypoosmotic swelling tests were combined to form a single test (HOS-EY test) to identify the spermatozoa with four types of membrane integrity.

RESULTS

After cryopreservation, there was a marked decline in the percentage of spermatozoa with Type IV membrane integrity (head membrane intact/tail membrane intact), and a significant increase in those with Type I (head membrane damaged/tail membrane damaged) and Type III (head membrane damaged/tail membrane intact) membrane integrity (n = 50, P < 0.01). The value of Type II integrity had a wide range of variability, whereas Type II (head membrane intact/tail membrane damaged) was uncommon after thawing. A high correlation was observed between the percentage of Type IV integrity and sperm motility ( n = 50, r = 0.74, P < 0.01). However, the values of Type IV integrity were usually lower than those of post-thaw motility in most cryopreserved samples. The value of Type IV integrity did not correlate with the sperm penetration rate (n = 25, r = 0.22, P > 0.05).

CONCLUSION

(1) The HOS-EY test has the advantage of showing four patterns of membrane integrity in individual spermatozoon; (2) Cryopreservation causes a significant membrane rupture in the head and tail regions of spermatozoa; Type III is the main transitional state of membrane cryodamage; (3) Cryodamage to head and tail membrane may occur independently; the presence of an intact tail membrane does not necessarily indicate the intactness of head membrane. (4) Intact membranes are closely related to post-thaw motility, but do not reflect the fertilizing potential.

The effects of cryopreservation on the morphometric dimensions of caprine sperm heads

Cryopreserved semen has been utilised in the artificial insemination of livestock species for over 40 years, even though the detrimental effects of cryopreservation on sperm function and fertility are well documented. In the present study, computer-automated sperm-head morphometry was used to determine if goat sperm-head morphometry was affected by freezing and thawing. A microscope slide was prepared from single semen samples, collected by artificial vagina, from 10 sexually active Saanen bucks. The remainder of each sample was frozen in a tris-citrate-yolk extender. After thawing, semen smears were prepared on microscope slides. All slides were stained in haematoxylin and mean sperm-head measurements of length, width, width/length, area and perimeter were determined for each slide by computer aided sperm morphometry analysis. The effects of sperm freezing on sperm-head dimensions within and among all bucks were determined. No significant (P > 0.10) freezing effect was found between fresh semen and postthaw samples for length (7.00 microns vs 7.13 microns), width (3.77 microns vs 3.87 microns), width/length (0.54 micron vs 0.54 micron), area (19.67 microns2 vs 20.57 microns2) and perimeter (18.62 microns vs 18.83 microns) when analysed across all bucks. Significant differences (P < 0.05) were however found within three bucks for area, perimeter, length and width, with the percentage increase in measurements being significantly greater than in the remaining bucks. The variability of the morphometric dimensions were not affected by freezing. The results indicate that semen freezing did not affect the overall dimensions of sperm heads across the entire population of bucks sampled. However, since sperm-head dimensions from three bucks were affected, changes in sperm-head morphometry may be indicative of spermatozoa of the semen from individuals to successfully freeze. Because the overall mean sperm-head dimensions acquired from frozen/thawed semen were not different from those of fresh semen, previously reported measurements of goat sperm heads are probably reflective of fresh semen. More importantly, retrospective studies of sperm-head morphometry and fertility may now be performed utilising extensive breeding records from frozen semen.

Cytogenetic effects of cryopreservation on human sperm: assessment using an improved method for analyzing human sperm chromosomes

OBJECTIVE

To evaluate any cytogenetic effects of cryopreservation on human sperm by comparing the frequencies of sperm chromosome anomalies and sex ratios before and after freezing.

METHODS

Using in vitro fertilization of zona-free hamster oocytes, analysis of sperm chromosomes was first performed on portions of fresh human semen samples. The residual semen was then analyzed for sperm chromosomes after cryopreservation for several weeks. Sperm donors were 5 healthy men aged 26-38 years.

RESULTS

A total of 166 sperm karyotypes were analyzed, 94 before freezing and 72 after freezing. The results indicated no significant differences between fresh and frozen sperm in either frequencies of aneuploidy (fresh: 0%, frozen: 2.8%) or structural anomalies (fresh: 7.5%, frozen: 9.7%). The sex ratios did not differ from the expected 1:1 ratio under either condition.

CONCLUSIONS

The results of these studies indicate that cryopreservation does not exert any cytogenetic mutagenicity on human spermatozoa or alter X/Y ratio of human sperm.

Effect of an intermediate hold with vapor freezing on subsequent hypoosmotic swelling in thawed sperm

Cryopreservation and thawing of sperm exerts an adverse effect on functional integrity of the sperm membrane as measured by the hypoosmotic swelling (HOS) test. Supercooling using the liquid nitrogen (LN2) vapor technique may damage membranes by favoring ice crystal formation. Slight slowing of the cooling process may allow escape of intracellular fluid. This study was conducted to evaluate modification of the LN2 vapor technique by employing an intermediate hold in a freezer (to slow down the rate of cooling) on HOS scores on specimens thawed 1 month after freezing. Semen samples were obtained from male partners of infertile couples with a requirement of a baseline HOS score < 70% but > or = 60%. The HOS test was performed on the unprepared semen sample prior to freezing and immediately post-thaw 1 month later on the aliquot frozen with LN2 vapors only vs. the equal fraction subjected to an intermediate hold. The mean initial HOS score was 68.5% and was 47% in thawed specimens that had been cryopreserved with and without an intermediate hold. There were no differences in the percentage of specimens exhibiting a > 50% HOS score following vapor freeze (70%) or vapor freeze with a hold (74%). Thus, these data do not demonstrate any advantage of slowing the vapor freezing process by utilizing an intermediate hold.

Osmotic effects on ram and human sperm membranes in relation to thawing injury

The effects of hyposmotic and hyperosmotic stresses on ram and human spermatozoa were examined. Human spermatozoa exhibited a precipitate decline in survival at osmolalities below 90 mOsm caused by cells swelling beyond their maximum volume-to-surface area ratio and lysing. Ram spermatozoa exhibited a progressive decline in cell survival at relatively small hyposmotic stresses before exceeding their maximum volume-to-surface area ratio; this prelytic cell loss could be prevented by decreasing the osmolality in a series of 25-mOsm steps. Repeated hyposmotic stress experiments indicated that cells sensitive to prelytic damage constitute a discrete subpopulation within the ram ejaculate. Spermatozoa of both species were apparently resistant to hyperosmotic stresses; human spermatozoa maintained membrane integrity when subject to stresses up to 2.5 Osm and ram spermatozoa up to 1 Osm. However, ram spermatozoa suffered an almost complete and irreversible loss of motility above 600 mOsm. Spermatozoa of both species exposed to hyperosmotic stress and returned to isosmotic conditions exhibited significant cell damage, although ram spermatozoa were the more vulnerable. These observations are related to cryopreservation of spermatozoa.

Ability of thawed tiger (Panthera tigris) spermatozoa to fertilize conspecific eggs and bind and penetrate domestic cat eggs in vitro

Electroejaculates from tigers were collected and half was used fresh to inseminate tiger eggs in vitro and domestic cat eggs stored in a hypertonic salt solution. The remainder was pelleted, frozen in a solution of 20% egg yolk, 11% lactose and 4% glycerol, thawed and cultured with tiger and domestic cat eggs. The motility index ((sperm % motility)+(status rating x 20))/2 for thawed spermatozoa was about 86% of that in fresh aliquots. Of the 49 tiger oocytes inseminated in vitro with fresh spermatozoa, 34 (69.4%) cleaved, compared with 33 of 47 oocytes (70.2%) cultured with thawed spermatozoa (P > 0.05). Embryos generated by either sperm treatment could develop in vitro to the 16-cell or morula stage. Fresh and thawed tiger spermatozoa were equally capable (P > 0.05) of binding and penetrating the outer and inner zona pellucida of domestic cat eggs. These results demonstrate the ability of frozen-thawed tiger spermatozoa to (i) penetrate homologous and heterologous eggs and (ii) result in conspecific, advanced development of preimplantation embryos in vitro.