Capacitation-like alterations in cooled boar spermatozoa: assessment by the chlortetracycline staining assay and immunodetection of tyrosine-phosphorylated sperm proteins

This study was undertaken in order to characterize alterations occurring in cooled boar spermatozoa by a chlortetracycline (CTC) staining assay and immunodetection of tyrosine-phosphorylated sperm proteins. Spermatozoa were collected from 10 mature boars, washed and then resuspended in a Tris-citric acid-glucose (TCG) solution. The sperm suspensions were slowly cooled to 4 degrees C over 5 h and held for 2 days. Aliquots of the sperm suspensions were recovered before and after the cooling treatment and then used for the CTC staining assay and immunodetection of tyrosine-phosphorylated sperm proteins. Before the cooling treatment, almost all of the spermatozoa stained with CTC were characterized by uniform fluorescence over the whole head (an F pattern: uncapacitated spermatozoa). After the cooling treatment, however, significant higher percentages of spermatozoa exhibited a B pattern with a dark band of diminished fluorescence in the post acrosomal region and a relatively bright fluorescence in the acrosomal region (the pattern of capacitated spermatozoa). Coincidently, a 32 kDa tyrosine-phosphorylated protein appeared in the spermatozoa. However, these alterations occurring in the cooled spermatozoa were attenuated by the supplementation to the sperm suspensions with seminal plasma (20% (v/v)). Additionally, the same alterations were observed in the spermatozoa incubated in a capacitation-supporting medium (a modified Krebs-Ringer bicarbonate; mKRB) for 5 h. These results suggest that cooling could induce capacitation-like alterations in boar spermatozoa that were associated with the tyrosine phosphorylation of the 32 kDa sperm protein.     

Changes in tyrosine phosphorylation associated with true capacitation and capacitation-like state in boar spermatozoa

Capacitation is defined as a series of events that render boar sperm competent to fertilize, either in vivo or in vitro. Moreover, preliminary stages of cryopreservation of spermatozoa involving cooling to 5 degrees C have been shown to induce capacitation-like changes in boar spermatozoa. Capacitation of boar spermatozoa is accompanied by protein phosphorylation, however the relationship between both processes is poorly understood. Capacitation status was assessed by chlortetracycline (CTC) staining. Changes in protein tyrosine phosphorylation were examined in pre-cleared whole cell lysates using a specific anti-phosphotyrosine monoclonal antibody. Our results in boar spermatozoa show a significant positive correlation between p32 tyrosine phosphorylation levels and percentage of capacitated (CTC pattern B) spermatozoa. Moreover, incubation of boar spermatozoa with two unrelated tyrosine kinase inhibitors induces a significant reduction in the percentages of capacitated and acrosome-reacted (AR) boar spermatozoa and a reduction in the p32 tyrosine phosphorylation. In our conditions, cooling boar spermatozoa to 5 degrees C and rewarming to 39 degrees C in a noncapacitating medium results in similar CTC staining patterns to those obtained after incubation of boar sperm for 1 or 4 hr at 39 degrees C in a capacitating medium. However, cooled-rewarmed fails to induce an increase in p32 tyrosine phosphorylation in boar spermatozoa. Moreover, CTC staining patterns of cooled-rewarmed spermatozoa do not change after incubation with a tyrosine kinase inhibitor. In conclusion, our results show a direct relationship between capacitation and tyrosine phosphorylation and suggest that p32 tyrosine phosphorylation levels could be used as a marker of the true capacitation changes observed in boar spermatozoa. Moreover, our results show that true capacitation and capacitation-like changes induced after cooling involve alternative intracellular tyrosine phosphorylation pathways in boar spermatozoa.     

Identification of capacitation in boar spermatozoa by chlortetracycline staining

The functional status of boar spermatozoa undergoing capacitation in vitro was investigated. Two fluorescent stains were used: chlortetracycline (CTC) and a FITC-conjugated lectin (FITC-PSA). The first has been used for the direct identification of the capacitated boar spermatozoa, while the second, based on the identification of capacitated spermatozoa by their ability to undergo zona-induced acrosome reaction (AR), was used to confirm and validate the CTC assay in this species. Spermatozoa obtained from 5 different boars was washed and incubated under capacitating conditions. Aliquots of spermatozoa were collected at 0, 90 and 180 min of incubation and then stained with CTC or FITC-PSA. After CTC staining, 3 different fluorescent patterns were observed: Pattern A with the fluorescence uniformly distributed on the sperm head, Pattern B with the fluorescence concentrated in the post-acrosomial region, and Pattern C with the fluorescence concentrated in the acrosomial region. The percentage of spermatozoa displaying fluorescent Pattern A decreased throughout the incubation while that of spermatozoa with Pattern C showed a concomitant progressive increase. Pattern B fluorescence remained unchanged throughout the maturation period. Exposure to zonae pellucidae (ZP) brought back the levels of Pattern C fluorescence to basal values. Since only the capacitated spermatozoa are believed to react to ZP, this observation together with the rising incidence of Pattern C throughout maturation suggests that fluorescence in the acrosomial region identifies capacitated spermatozoa. The analysis of acrosome integrity carried out with FITC-PSA showed that the proportion of zona-induced AR was nearly the same as that of spermatozoa displaying Pattern C, thus confirming that CTC staining is suitable for the detection of boar sperm capacitation. In the second part of this study, CTC was used to investigate the effects of sperm origin and storage on the capacitation process. Our finding demonstrates that capacitation kinetics show wide variations in sperm samples derived from different boars; moreover, capacitation is also affected by sperm storage. While fresh semen showed a progressive increase in capacitated spermatozoa, ranging from low levels at the beginning of the culture to 46% at the end of incubation, the refrigerated semen had a relatively high percentage of capacitated spermatozoa at the beginning of culture, but this proportion increased only slightly during the following 90 to 180 min of treatment. These data indicate that CTC can be used to identify capacitated boar spermatozoa, and, because of its rapid and easy execution, it can be used routinely to identify the optimal capacitation time for different sperm samples.     

Effects of extender, incubation temperature, and added seminal plasma on capacitation of cryopreserved, thawed boar sperm as determined by chlortetracycline staining

The effect on apparent capacitation status of frozen-thawed (FT), washed boar sperm was examined in capacitation-supporting medium at 39 °C without added seminal plasma (SP) or supplemented with either 10 or 20% (v/v) boar SP. The thawed sperm from three boars were washed to remove the egg yolk-based freezing medium (EY) and then incubated for 1–8 h after addition of SP. Capacitation status of the sperm was determined microscopically using chlortetracycline staining patterns. At 1 h after the addition of 10 or 20% (v/v) SP, capacitated sperm decreased from 59.7 to 30.3% and from 59.5 to 26.8%, respectively (P < 0.001). Subsequent studies examined the effect of 10% SP on capacitation status of FT sperm extended in either phosphate buffered saline or commercial thawing extender with or without prior washing of sperm to remove EY and incubated at 17 or 39 °C. No effect of SP resulted from addition to sperm when EY remained or when the temperature was maintained at 17 °C (P > 0.1). These results indicate that SP appears able to reverse capacitation of FT boar sperm, but that this effect is dependent on both temperature and composition of the thawing extender.     

Capacitation and the acrosome reaction in squirrel monkey (Saimiri sciureus) spermatozoa evaluated by the chlortetracycline fluorescence assay

Capacitation and the acrosome reaction in squirrel monkey seminal spermatozoa diluted in Tyrode's medium (TALP) and TC-199 were monitored by a chlortetracycline (CTC) fluorescence assay. Four CTC patterns, similar to those found in human sperm, were readily characterized by fluorescent staining on the heads of the spermatozoa. The appearance of the capacitated (CP) pattern was dependent on the concentration of the bovine serum albumin. Acrosomal loss was observed in a maximum of 15% of the sperm in the populations studied here. Calcium ionophore A23187 (5 μM to 20μM) induced acrosomal loss in 60–70% of capacitated spermatozoa. However in freshly ejaculated sperm incubated under capacitating conditions or in spermatozoa incubated in Ca^{+ +}-free medium, A23187 failed to induce acrosomal loss. Furthermore, spermatozoa incubated in the presence of seminal plasma or spermatozoa obtained following a 1-hour “swim-up” procedure showed an identical timecourse of appearance of the CP pattern, indicating the lack of effect of seminal plasma on capacitation in the squirrel monkey.     

Chlortetracycline analysis of boar spermatozoa after incubation,flow cytometric sorting,cooling, or cryopreservation

In this study, the effects of staining procedure with chlortetracycline (CTC) and method of analysis of boar spermatozoa after staining were examined. The hypothesis that incubation, flow cytometric sorting, cooling, and cryopreservation cause changes to boar sperm membranes which resemble capacitation and the acrosome reaction was also tested. Membrane status was evaluated by flow cytometry and by fluorescence microscopy after staining with CTC, and acrosome integrity was checked by flow cytometry after staining with FITC-pisum sativum agglutenin and propidium iodide (PI). Flow cytometry was also used to assess viability (percentages of live and dead cells) of boar sperm after staining with SYBR-14 and PI. Staining of spermatozoa with CTC alone and in combination with PI and/or Hoechst 33342 had no effect on the proportion of spermatozoa allocated to the F (uncapacitated), B (capacitated), or AR (acrosome-reacted) CTC fluorescent staining categories. The mean percentages of acrosome-intact and acrosome-reacted cells were 88.4 and 6.8 or 0.8 and 96.5 in semen treated with 0 or 100 μg/ml lysophosphatidylchloine (LPC), respectively (P < 0.001). Most spermatozoa were also in the AR CTC-stained category after treatment with LPC compared with a small proportion in the controls. Using flow cytometry to examine sperm suspensions stained with CTC, a gated population of spermatozoa with low fluorescence (population 1) comprised predominantly F-pattern cells (F-pattern: population 1 vs. population 2, 80.5 vs. 14.4%; P < 0.001), whereas population 2 (high fluorescence) comprised mainly B-pattern cells (B-pattern: population 1 vs. population 2, 8.5 vs. 62.3%; P < 0.001). Incubation (38°C, 4 hr), flow sorting, cooling (to 15 or 5°C) and freezing reduced the proportion of F-pattern and live spermatozoa, and increased the proportion of B-, AR-pattern, and dead spermatozoa, in comparison with fresh semen. There were more membrane changes in spermatozoa cooled to 5°C (30.4, 48.5, 21.1%) than in those cooled to 15°C (56.1, 32.6, 11.5% F-, B-, and AR-pattern spermatozoa, respectively). Mol. Reprod. Dev. 46:408–418, 1997. © 1997 Wiley-Liss, Inc.     

Effect of sex sorting on CTC staining, actin cytoskeleton and tyrosine phosphorylation in bull and boar spermatozoa

Sperm sorting is a useful technology that permits sex preselection. It presents some troubles because of low fertility after the process. The main aim of this work was to analyze the putative existence of capacitation-like changes in both boar and bull sperm subjected to sex sorting that could lead to a detriment of semen quality. The parameters used were CTC staining patterns, actin cytoskeleton organization and tyrosine phosphorylation patterns; the last two were determined by both western blotting and immunofluorescence. Sex sorted spermatozoa were compared with fresh, in vitro capacitated and in vitro acrosome reacted sperm. In both species, sex sorted sperm showed a CTC staining pattern similar to that observed after in vitro capacitation. The actin pattern distribution after sperm sorting also tended to be similar to that observed after in vitro capacitation, but this effect was more pronounced in bull than in boar spermatozoa. However, actin expression analysis through western blot did not show any change in either species. The tyrosine phosphorylation pattern in boar sperm was practically unaltered after the sex sorting process, but in bulls about 40% of spermatozoa had a staining pattern indicative of capacitation. Additionally, western blotting analysis evidenced some differences in the expression of protein tyrosine phosphorylation among fresh, capacitated, acrosome reacted and sex sorted sperm cells in both species. Our results indicate that not all the sex-sorted-related modifications of the studied parameters were similar to those occurring after “in vitro” capacitation, thus suggesting that sex sorting-induced alterations of sperm function and structure do not necessarily indicate the achievement of the capacitated status of sorted sperm.     

Effects of the purified IGF-I complex on the capacitation and acrosome reaction of rabbit spermatozoa

A protein complex containing IGF-I, purified from rabbit seminal plasma, was used to investigate its effects on the capacitation and acrosome reaction of rabbit spermatozoa. Uncapacitated sperm (Pattern F), capacitated sperm (Pattern B), and acrosome-reacted sperm (Pattern AR) were determined by CTC staining, and the results were validated by PSA-staining. The addition of the IGF-I complex to the capacitative medium directed the spermatozoa to spontaneous acrosome reaction. On the other hand, IGF-I complex, added to capacitated spermatozoa, acted as inducer of the acrosome reaction. Results of IVF experiments showed high rates of fertilization with capacitated spermatozoa, acrosome-reacted by either A23187 or IGF I complex, whereas significantly lower rates were obtained with spermatozoa capacitated in the presence of IGF-I complex.     

Microfilaments appear in boar spermatozoa during capacitation in vitro

Boar spermatozoa were incubated in a capacitation medium and examined for the presence of filamentous actin by using the fluorescent probe NBD-phallacidin. F-actin was not observed in uncapacitated sperm, but developed in most regions of the cell during the capacitation period. Fluorescent staining was most intense in the flagellum. When fresh seminal plasma was added to capacitated sperm and the sperm was further incubated, F-actin was no longer observed. In view of previous experiments which indicated that plasma membrane proteins (PMPs), including a major integral PMP, move out of the sperm head into the flagellum during capacitation and that this movement is inhibited by the microfilament poison cytochalasin D (Peterson, Saxena, Saxena, and Russell: Biol. Reprod., in press, '86), we suggest that actin-PMP interactions play a major role in capacitating boar spermatozoa.     

Assessment of sperm viability,mitochondrial activity,capacitation and acrosome intactness in extended boar semen during long-term storage

The purpose of this study was to assess sperm quality in extended boar semen during in vitro storage in order to determine which extender should be used and how long boar semen can be stored. Freshly ejaculated boar semen was diluted with equal volumes of Beltsville thaw solution (BTS), Androhep, KIEV or Zorlesco extenders and stored at 17 degrees C for up to 15 days. Sperm quality was evaluated by examining viability using SYBR-14/PI and Hoechst 33258 staining, mitochondrial activity using 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolyl-carbocyanine iodide (JC-1) staining, acrosome intactness by Coomassie blue staining, and capacitation status by chlortetracycline (CTC) staining. There were over 50% viable spermatozoa in boar semen extended with Zorlesco and Androhep extenders on Day 13 of storage. The percentage of JC-1-stained spermatozoa was 53.8 +/- 2.1% for Zorlesco and 57.7 +/- 1.60% for Androhep extenders on Day 13 of storage. The percentage of acrosome-intact spermatozoa detected by Coomassie blue staining was higher than that in the SYBR-14PI-, Hoechst 33258-, and JC-1-stained samples in our study. The results from SYBR-14/PI, Hoechst 33258, JC-1, and Coomassie blue staining were highly correlated (r > or = 0.9461). There were less than 15% capacitated spermatozoa in the semen extended with BTS, Androhep and Zorlesco extenders during 9 days of storage. However, most viable boar spermatozoa became capacitated by Day 13 of storage. The rank order of four extenders for maintaining sperm viability and mitochondrial activity was as follows: Androhep, Zorlesco, BTS, KIEV.     

Effects of cryo-injury on progesterone receptor(s) of canine spermatozoa and its response to progesterone

The integrity of sperm progesterone (P4) receptor(s) and its response to steroid stimulation might be crucial for the maintenance of sperm fertilizing ability after cryopreservation. The aim of the current investigation was to study the effect of cryo-procedures on canine sperm P4 receptor(s). In addition, alteration of P4 receptor(s) at the molecular level and their functional integrity following cryo-procedures was evaluated. Fresh and frozen-thawed semen samples (n=6 same dogs) after capacitation were treated with 10 microg/mL P4 to induce the acrosome reaction (AR, FITC-PNA staining). Parallel samples were treated with 50% canine seminal plasma (SP) prior to AR induction with P4. The percentages of AR in capacitated fresh and frozen-thawed semen samples after treatment with P4 were 31.0+/-6.7 and 21.6+/-4.1% (P<0.05), respectively. The percentage of AR in fresh and frozen-thawed semen samples pretreated with SP and incubated with P4 was; 11.5+/-4.8 and 16.5+/-2.0% (P<0.05), respectively. The incidence of the spontaneous AR (P>0.05) in fresh and frozen-thawed semen samples at the onset (5.5+/-2.2 and 6.1+/-1.8%; respectively) and after a 2h (9.6+/-5.1 and 10.4+/-2.7%; respectively) capacitation, avoiding P4 stimulation, were not different. The percentage of progesterone-BSA-FITC staining over the acrosomal region was 18.3+/-10.3% in fresh semen, 36.0+/-11.9% in capacitated (P<0.05) and less than 5% in SP treated spermatozoa. This staining was barely visible in frozen-thawed spermatozoa regardless of capacitation status. In western blot analysis, mAb C262 recognized two bands (54 and 65 kDa). Digitonin treated fresh and frozen-thawed spermatozoa, labeled with [3H]-progesterone, revealed that the P4 binding capacity decreased from 6.0+/-4.4 in fresh to 3.0+/-2.1 nM in frozen-thawed spermatozoa. In nearly all samples tested (except one) 65 kDa protein band decreased significantly after freeze-thaw procedures while the 54kDa protein was increased. These results indicate that the reduced incidence of AR in response to P4 in frozen spermatozoa is possibly due to the conformational changes of P4 receptor(s) and/or reduced P4 receptor density derived from freezing injury.     

Effects of dead spermatozoa on motion characteristics and membrane integrity of live spermatozoa in fresh and cooled-stored equine semen

The aim of this study was to determine if dead spermatozoa reduced motility or membrane integrity of live spermatozoa in fresh and cooled-stored equine semen. Three ejaculates from each of three stallions were centrifuged and virtually all seminal plasma was removed. Spermatozoa were resuspended to 25 x 10(6) spermatozoa/ml with EZ-Mixin CST extender and 10% autologous seminal plasma, then divided into aliquots to which 0 (control), 10, 25, 50, or 75% (v/v) dead spermatozoa were added. Dead spermatozoa preparations contained 25 x 10(6) spermatozoa/ml and 10% seminal plasma from pooled ejaculates of the three stallions, in EZ-Mixin CST extender. Spermatozoa were killed in the pooled ejaculates by repeated freezing and thawing, then stored at -20 degrees C until warmed to 37 degrees C and mixed with aliquots of fresh spermatozoa to be cooled and stored in an Equitainer for 24h. Motion characteristics (% total motility (MOT), % progressive motility (PMOT), and mean curvilinear velocity (VCL)) for fresh and 24h cooled samples were determined using a computerized spermatozoal motion analyzer. The presence of up to 75% dead spermatozoa did not adversely affect MOT or PMOT of live spermatozoa in either fresh or cooled-stored semen. However, VCL and the percentage of membrane-intact spermatozoa were reduced compared to control samples when 75% (v/v) dead spermatozoa were added. Membrane integrity, as assessed by staining with carboxyfluoresein diacetate-propidium iodide, was highly correlated (r>0.8; P<0.001) with MOT and PMOT in both fresh and cooled-stored semen samples. Results of this study have application to the processing of both cooled and frozen equine semen.     

Capacitation-like changes occur in mouse spermatozoa cooled to low temperatures

Previously we showed that > 70% of mouse spermatozoa cooled slowly from 37°C to 4°C and warmed have undergone capacitation-like changes as examined by a chlortetracycline staining assay. These membrane changes are reflected in the ability of cooled spermatozoa to achieve fertilization rates in vitro similar to those of uncooled controls when added to oocytes immediately upon warming. The aim of this study was to determine the nature of these membrane changes. We found they were not dependent upon the rate of cooling to 4°C and similar changes were observed when spermatozoa were cooled to higher temperatures (10° and 20°C), but it took longer for 50% of the spermatozoa to undergo such changes (3, 18, and 27 min for spermatozoa held at 4°, 10°, and 20°C, respectively). Mixing cooled spermatozoa with oocytes immediately upon warming produced fertilization rates similar to fresh spermatozoa capacitated in vitro for 90 min before the oocytes were added. The rate of sperm penetration as determined by the fluorescent DNA stain Hoescht 33258 was also similar. However, the penetration time for cooled spermatozoa was significantly shortened when they were preincubated for 90 min before being added to oocytes. We conclude that membrane changes resembling capacitation (1) occur during cooling to temperatures above freezing, (2) are independent of cooling rate, (3) proceed faster at lower temperatures, and (4) obviate the need for prior capacitation in vitro before mixing with oocytes. Mol. Reprod. Dev. 46:318–324, 1997. © 1997 Wiley-Liss, Inc.     

Effect of egg yolk and other reagents upon the zinc of cold-shocked boar spermatozoa

A marked reduction (80.8%) in the zinc uptake by boar spermatozoa cooled to 4 degrees C occurs when the seminal plasma is pretreated with egg yolk-glucose at this temperature. Crude lecithin is less effective (59.8%). Similar pretreatment of the seminal plasma by the polycationic drug Antrypol, which totally removes the zinc-precipitable basic haemagglutinin, does not result in a significant reduction of the sperm zinc uptake at 4 degrees C.     

Effect of seminal plasma on the cryopreservation of equine spermatozoa

Seminal plasma is generally removed from equine spermatozoa prior to cryopreservation. Two experiments were designed to determine if adding seminal plasma back to spermatozoa, prior to cryopreservation, would benefit the spermatozoa. Experiment 1 determined if different concentrations of seminal plasma affected post-thaw sperm motility, viability and acrosomal integrity of frozen/thawed stallion spermatozoa. Semen was washed through 15% Percoll to remove seminal plasma and spermatozoa resuspended to 350 x 10(6)sperm/mL in a clear Hepes buffered diluent containing either 0, 5, 10, 20, 40 or 80% seminal plasma for 15 min, prior to being diluted to a final concentration of 50 x 10(6)sperm/mL in a Lactose-EDTA freezing diluent and cryopreserved. Sperm motility was analyzed at 10 and 90 min after thawing, while sperm viability and acrosomal integrity were analyzed 20 min after thawing. Seminal plasma did not affect sperm motility, viability or acrosomal integrity (P>0.05). Experiment 2 tested the main affects of seminal plasma level (5 or 20%), incubation temperature (5 or 20 degrees C) and incubation time (2, 4 or 6 h) prior to cryopreservation. In this experiment, spermatozoa were incubated with 5 or 20% seminal plasma for up to 6h at either 5 or 20 degrees C prior to cryopreservation in a skim milk, egg yolk freezing extender. Samples cooled immediately to 5 degrees C, prior to freezing had higher percentages of progressively motile spermatozoa than treatments incubated at 20 degrees C (31 versus 25%, respectively; P<0.05), when analyzed 10 min after thawing. At 90 min post-thaw, total motility was higher for samples incubated at 5 degrees C (42%) compared to 20 degrees C (35%; P<0.05). In addition, samples containing 5% seminal plasma had higher percentages of total and progressively motile spermatozoa (45 and 15%) than samples exposed to 20% seminal plasma (33 and 9%; P<0.05). In conclusion, although the short-term exposure of sperm to seminal plasma had no significant effect on the motility of cryopreserved equine spermatozoa, prolonged exposure to seminal plasma, prior to cryopreservation, was deleterious.     

Select antioxidants improve the function of extended boar semen stored at 10 degrees C

The objective was to determine the effects of antioxidant addition to extender on viability, acrosome integrity and penetrability in vitro of boar spermatozoa preserved at 10 degrees C. Washed spermatozoa were resuspended at 1 x 10(8) cells/mL in modified Modena solution containing 20% (v/v) boar seminal plasma and 5 mM antioxidant (glutathione, cysteine or hypotaurine). Control aliquots were the same suspension without added antioxidants. Sperm suspensions were then chilled to 10 degrees C with a computerized cooling program. Sperm viability after 7 and 14 d was higher in the presence of glutathione or cysteine, whereas hypotaurine did not improve the survival rate. Percentage of chlortetracycline (CTC) fluorescence pattern as intact live cells was higher in spermatozoa preserved with glutathione or cysteine at 7 and 14 d of preservation. When the preservation period was prolonged until 57 d, survival rate was higher with cysteine than controls. When spermatozoa were preserved with cysteine and then inseminated in an IVF system, penetration rate was not different until 15 d of preservation and higher than controls at 15-29 d, whereas no sows became pregnant after AI with spermatozoa preserved for 21-23 d. Therefore, glutathione and cysteine can improve the viability and functional status of boar spermatozoa during liquid preservation and boar spermatozoa penetrated in vitro even after preservation in the presence of cysteine at 10 degrees C for 29 d.     

Arylsulfatases are present in seminal plasma of several domestic mammals.

Mammalian spermatozoa and seminal plasma both contain high levels of arylsulfatases (AS), enzymes that remove sulfate from sulfated glycoconjugates. In ejaculated semen of boars, 85% of AS was found in seminal plasma whereas only 13% was found in spermatozoa. A comparable distribution of AS between spermatozoa and seminal plasma was observed in other domestic mammals. The presence of AS in seminal plasma was not due to leakage from spermatozoa because sperm cells had intact acrosomes and plasma membranes after their separation from seminal plasma, and because 84% of the acrosomal marker enzyme hyaluronidase was retained in washed spermatozoa. Spermatozoa in boar semen diluted with Beltsville Thawing Solution (BTS) deteriorated faster during storage at 17 degrees C than spermatozoa stored in BTS without seminal plasma. This suggests that seminal plasma has a deleterious effect on mammalian spermatozoa. We propose that (1) sulfated glycoconjugates stabilize sperm plasma membranes; (2) AS present in seminal plasma contribute to the deterioration of spermatozoa by desulfating these glycoconjugates; and (3) AS present in seminal plasma could well play a role in sperm capacitation.     

Use of triple stain technique for simultaneous assessment of vitality and acrosomal status in boar spermatozoa

The object of this study was to adapt the triple stain technique to diluted and incubated boar spermatozoa. Freshly ejaculated semen was resuspended in MR-A diluent to contain 3x10(7) cells/ml (diluted spermatozoa) and was subsequently capacitated (incubated spermatozoa). Experiments were conducted to show the conditions required for optimal staining quality and validation of triple stain technique. The most satisfactory staining solutions for diluted spermatozoa were 2% Trypan blue at 37 degrees C for 15 minutes, 0.8% Bismarck brown in 30% ethyl alcohol (pH 2.8) at 40 degrees C for 10 minutes and 0.8% rose Bengal in 0.1 M of Tris (pH 4.3) at 21 degrees C for 20 minutes. Satisfactory results were obtained for incubated spermatozoa with rose Bengal when the staining time was 10 minutes. Triple stain technique seemed to be a useful method for the simultaneous assessment of sperm vitality and acrosomal status; consequently, it should be valuable tool, for use in porcine in vitro fertilization systems.     

Preservation of ejaculated and epididymal stallion spermatozoa by cooling and freezing

The suitability of ejaculated and epididymal stallion spermatozoa for cooled storage (5 degrees C) and cryopreservation was examined in 5 ejaculates from each of 6 stallions and in spermatozoa recovered from the cauda epididymidis after castration of these stallions. The percentage of progressively motile spermatozoa, examined by subjective estimation (cooled samples) or by computerized analysis (frozen-thawed samples), was used as parameter. In ejaculated semen samples containing 5 and 25% seminal plasma in a skim milk glucose extender, the lower amount of seminal plasma supported spermatozoal motility significantly better throughout storage at 5 degrees C. Addition of 5 or 25% seminal plasma to perfused epididymal spermatozoa (0% seminal plasma) resulted in a significant stimulation of spermatozoal motility by 25% seminal plasma at 0 h (P<0.05) and to a lesser extent at 24 and 48 h. Post-thaw motility of ejaculated as well as epididymal spermatozoa was not influenced by slow cooling to 15 degrees or 5 degrees C with or without glycerol prior to rapid freezing in liquid nitrogen vapor. During cooled storage, seminal plasma had a stimulatory effect on epididymal spermatozoa and depressed motility in ejaculated spermatozoa. Results on cryopreservation indicate that freezability of equine spermatozoa is already determined when spermatozoa leave the tail of the epididymis.