Effects of treatment with butylated hydroxytoluene on the susceptibility of boar spermatozoa to cold stress and dilution.

Boar spermatozoa acquired resistance to cold shock immediately after exposure to 2.0 mmol butylated hydroxytoluene (BHT) l-1 when Beltsville thawing solution was used as a basic diluent, as judged by motility (the proportion of motile spermatozoa) and acrosomal integrity. The concentration of BHT could be reduced to 0.2 mmol l-1 without decreasing the protective action. However, motility was altered in the presence of greater than 0.15 mmol BHT l-1. Beltsville freezing 5 (BF5) diluent was more effective than Beltsville thawing solution in protecting spermatozoa from cold shock, but addition of BHT to BF5 diluent did not affect the motility and acrosomal morphology of spermatozoa before or after cold shock. Dilution of BHT-treated spermatozoa with BF5 diluent did not restore motility and did not afford further protection against cold shock; it was detrimental to spermatozoa treated with 2 mmol BHT l-1 for greater than 15 min. Egg yolk or lecithin had a detrimental effect. When spermatozoa were treated with 0.05-0.10 mmol BHT l-1 before slow cooling to 5 degrees C, the progressive motility and acrosomal integrity were maintained better after storage for 6 days than in untreated 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.     

INHIBITION OF RESPIRATION IN SEA URCHIN SPERMATOZOA FOLLOWIGN INTERACTION WITH FIXED UNFERTILIZED EGGS

The respiratory rate of spermatozoa of the sea urchin, Pseudocentrotus depressus and Hemicentrotus pulcherrimus , became quite low and spermatozoa was immotile, after sperm suspension containing glutaraldehyde-fixed eggs of homologous species was stirred at 20°C for 15 min. The respiratory rate of fresh spermatozoa, introduced to the suspension of immotile spermatozoa thus obtained, was also reduced markedly. The respiration of fresh spermatozoa was not inhibited by adding them to suspension of intact or acrosome reacted spermatozoa. A heat stable and non-dialyzable substance, which inhibited sperm respiration, was removed from the fixed eggs by vigorously stirring the egg suspension for 10 min, when unfertilized eggs were fixed with insufficient amount of glutaraldehyde (10 ml of 1% glutaraldehyde solution to 1 ml egg pellet).     

Assessment of acrosome-reacted boar spermatozoa using monoclonal antibody GB 24 and propidium iodide

Fluorescein-labeled GB 24, a mouse monoclonal antibody, was evaluated as an acrosomal dye for boar spermatozoa that had previously been stained with propidium iodide (PI) to assess sperm viability. A specific sperm-staining pattern with fluorescein-labeled GB 24 was shown to be associated with acrosome reaction on freshly ejaculated sperm when fixed with acetone or induced with ionophore A 23187, whereas the presence of PI staining was typical of dying spermatozoa. The GB 24-PI procedure was as accurate as the glutaraldehyde method in assessing acrosomal presence or absence on freshly ejaculated spermatozoa when spontaneous or A 23187-induced acrosomal reactions were considered. Approximately half of A 23187-induced spermatozoa with acrosomal loss did not exhibit a PI fluorescence; these were potentially viable acrosome-reacted spermatozoa. On semen diluted in a boar sperm-specific diluent (BTS-A) and stored, percentages of spermatozoa with nonintact acrosome from glutaraldehyde and GB 24-PI were not significantly different. Conversely, data from GB 24-PI was significantly lower than those from glutaraldehyde when semen were undiluted. This suggested that spermatozoa with reacted acrosome gradually lost their ability to bind with GB 24. Providing unequivocal and rapid scoring of acrosome-reacted spermatozoa, the GB 24-PI procedure may be a valuable tool in the evaluation of the acrosomal status of porcine fresh spermatozoa.     

Examination of some processing methods for freezing boar semen.

Five experiments were conducted to examine the effect of processing methods and diluents on survival and morphology of boar spermatozoa after freezing. Post-thawing survival of spermatozoa was better for Beltsville-F3 (BF3) than for tris-fructose-EDTA freezing diluent when the seminal plasma and glycerol were removed prior to freezing (method A). Both freezing diluents yielded similar viability results when the spermatozoa were frozen in the presence of siminal plasma and glycerol (method B). Viability of spermatozoa after thawing was better when glycerol concentration in the prefreezing diluent (method A) or in the freezing medium (method B) was 2-5 and 5-0 rather than 7-5%. Cooling of diluted semen to 5 degrees C beyond 4 h decreased the post-thawing survival of spermatozoa. The proportion of spermatozoa with undamaged acrosomes after processing and thawing by different methods was indistinguishable and relatively low. When the semen was frozen at cell concentrations ranging from 0-25 to 2-0 X 10(9)/ml, the viability of spermatozoa declined with increasing concentration following freezing in BF3, and S-1 diluents. Viability results were very similar for all cell concentrations examined when tris-fructose-EDTA diluent was used, indicating the possibility of freezing boar semen in a concentrated state.     

Comparative scanning electron microscope study of boar,bull and ram spermatozoa

The comparative ultrastructure of ejaculated boar, bull and ram spermatozoa is studied by scanning electron microscopy. After washing, the spermatozoa are fixed in glutaraldehyde or im picric acid-formaldehyde-glutaraldehyde mixture. Samples are prepared either by critical point drying (Freon) on Millipore filters or by air drying on glass cover slips. In all the species studied, three regions may be distinguished in the paddle-shaped head of the sperm: an anterior segment (surrounded by the marginal thickening) and an equatorial segment constituting together the acrosome, and the postacrosomal region. Most of the feature of the postacrosomal lamina described in transmission electron microscopy are visible through the plasma membrane, particularly after air drying. The surface morphology of the neck and of the different segments of the flagellum is also evident. Some species differences are encountered, e.g. rough surface of acrosome and absence of serrations in postacrosomal lamina of boar spermatozoa only. The techniques employed result in good general morphology and fine resolution of surface detail of the sperm samples; they also permit analysis of spermatozoa treated by freezing or submitted to acrosomal extraction.     

The effect of melatonin on the quality of extended boar semen after long-term storage at 17 °C

Melatonin (MLT) is an efficient antioxidant that protects cells and tissues and initiates a host of receptor-mediated effects. In order to enhance the life span of refrigerated boar semen, our aim was to evaluate the effects of addition of 1 μM MLT to commercially produced pig semen (33 seminal doses from 14 boars) that had been preserved at 17 °C for 7 days. Samples without MLT served as controls. On Days 1, 4 and 7, we evaluated motility parameters and the percentage of total motile and progressively motile spermatozoa by a computer-aided sperm analysis system. Viability (SYBR-14/PI), acrosomal status (FITC-PNA/PI), membrane fluidity (M-540/YoPro-1) and mitochondrial membrane potential status (JC-1) were evaluated by flow cytometry. MLT treatment significantly enhanced the percentage of static spermatozoa after 7 days of storage and significantly reduced the percentage of progressively motile spermatozoa on Day 7. The velocity characteristics (VCL, VSL and VAP) were significantly higher for MLT-treated samples on Day 1 and were their lowest on Day 7. With regard to flow cytometry results, the percentage of viable spermatozoa with an intact acrosome was higher in MLT samples throughout the entire storage period. In addition, there was a significantly higher proportion of live spermatozoa on Day 7 in the samples that had not been treated with MLT. The proportion of spermatozoa showing a high mitochondrial membrane potential remained at similar levels (P > 0.05) throughout the trial. Although the findings of the present study revealed that 1 μM MLT increased the proportion of live sperm with an intact acrosome, this treatment did not enhance the spermatic quality of refrigerated boar semen.     

Incorporating lipids into boar sperm decreases chilling sensitivity but not capacitation potential

Fresh boar sperm were incubated with small unilamellar liposomes composed of either the total lipids extracted from head plasma membranes (HPM) of fresh boar sperm or selected lipids (SL) of five defined phospholipids with specific acyl chains. To optimize fusion, liposomes with 2 mol% octadecyl rhodamine fluorophore in Beltsville Thawing Solution +/- 1 mM CaCl(2) were incubated at 35 degrees C with 1;ts 10(7) or 10(8) spermatozoa/ml and monitored over 60 min, using flow cytometry and fluorescence microscopy. The HPM fused to both sperm concentrations faster than SL but was equivalent by 30 min (10(8) sperm/ml) or 60 min (10(7) sperm/ml; 57.5 +/- 3% and 67.1 +/- 8% sperm fused to HPM and SL, respectively) +/- Ca(2+). Neither HPM nor SL affected onset of capacitation or spontaneous or ionophore-induced acrosome reactions at 0 or 3 h (chlortetracycline and fluorescein isothiocyanate-Pisum sativum agglutinin; n = 3). During cooling and after cryopreservation (n = 4 ejaculates), SL but not HPM significantly improved sperm motility and viability (Sybr14/propidium iodide staining) +/- 20% egg yolk, but egg yolk alone was more effective than SL alone. Liposomes of complex composition can fuse to boar sperm without harming in vitro capacitation or acrosome reaction and reduce sperm chilling sensitivity.     

Influence of Thawing Diluents on Vitality,Acrosome Morphology,Ultrastructure and Enzyme Release of Deep Frozen Roar Spermatozoa*

The present investigation was performed to study the effect of freezing and thawing on boar spermatozoa. Thirty-one ejaculates from four boars were investigated after thawing in three different thawing diluents (seminal plasma, OLEP, isotonic glucose solution). From each ejaculate one sample of 1 × 109 spermatozoa was thawed in each of the thawing diluents. Each sample was examined in a thermoresistance test in which motility was stimulated with caffeine 30 min. and 3 hrs. after thawing. Furthermore, acrosome morphology and ASAT release from the spermatozoa were investigated for each sample. One ejaculate from the two most frequently used boars was examined by electron microscopy after thawing in each of the thawing diluents. Differences in the aspects studied appeared between isotonic glucose solution and the other two thawing diluents in the thermoresistance test, in the response to caffeine stimulation 3 hrs. after thawing and in the amount of ASAT released from the spermatozoa. The influence on the acrosome morphology varied between the thawing diluents, but the acrosomal alterations did not seem to be connected with the damage reflected by the thermoresistance test and by the measurement of extracellular ASAT activity. The ultrastructural investigation showed that all spermatozoa examined had some degree of ultrastructural alteration as compared with freshly ejaculated boar spermatozoa treated in the same way. This alteration could not be related to any of the thawing diluents. Of the various laboratory tests the thermoresistance test and the measurement of ASAT release are suggested to be sensitive indicators of sperm damage during freezing and thawing. These tests might be useful indicators of variations in sensitivity of spermatozoa to the freezing-thawing procedure.     

The effects on boar sperm quality of dietary supplementation with omega-3 polyunsaturated fatty acids differ among porcine breeds

The present study was undertaken to shed light on the relationship between boar sperm quality and dietary supplementation with omega-3 polyunsaturated fatty acids, which has been reported inconsistently in the literature. With this aim, such effects were evaluated and compared among three different porcine breeds: Duroc, Large-White, and Pietrain. Animals were randomly separated into two groups and fed either with a control diet or with a diet supplemented with omega-3. Sperm quality of these boar (ejaculate volume, sperm concentration, sperm viability, acrosome and mitochondrial sheath integrity, sperm motility, sperm morphology, and osmotic resistance of spermatozoa) was assessed every week for a 26-week period. Supplementing boar's diet with omega-3 did not affect ejaculate volume, sperm concentration, sperm motility, sperm viability, and acrosome and mitochondrial sheath integrity. In contrast, supplemented diet positively affected both sperm morphology in Large-White and Pietrain breeds and the osmotic resistance of Pietrain spermatozoa. No effects were seen for the same sperm parameters in Duroc breed. These breed-differences in boar fed with the supplemented diet could explain the contradictions in literature and might be related with differences in the composition of plasma membrane among breeds reported by other authors. Because no harmful effects were observed in the three evaluated breeds, but positive effects in Large-White and Pietrain boar, we can conclude that omega-3 fatty acids may be added to boar's diet at the levels used in this study to improve their sperm quality. More research is, however, needed to determine how these fatty acids differently affect the morphology and the osmotic resistance of the spermatozoa in these breeds.     

Hyaluronic acid delays boar sperm capacitation after 3 days of storage at 15 degrees C

The present study was undertaken to determine the effects of the addition of hyaluronic acid (HA), ranged from 12.5 to 200 microg/ml, on boar sperm capacitation status during a storage time (up to 3 days) at 15 degrees C in Beltsville thawing solution (BTS). The raw extender was the negative control whereas different concentrations of caffeine (CAF), ranged from 0.25 to 8mM, served as positive controls. Sperm viability, motility, morphology, and osmotic resistance were also determined before and after assessing the treatments. Samples were obtained from 28 healthy and post-pubertal Piétrain boars and sperm parameters were tested immediately after the addition of treatments and after 1, 2 and 3 days of refrigeration at 15 degrees C. Sperm capacitation status was determined by chlortetracycline (CTC) staining and sperm viability by means of a multiple fluorochrome-staining test. Sperm motility and morphology were assessed using phase-contrast microscopy accompanied by a computer assisted sperm analysis system (CASA). Whereas HA delayed sperm capacitation, CAF increased the frequency of capacitated spermatozoa after 2 days of cooling. Moreover, HA did not modify other sperm parameters, such as sperm velocity, whereas CAF increased progressive motility during the first 2 days of cooling and then decreased. It can be concluded that the addition of HA at 50 and 100 microg/ml to the BTS extender may delay sperm capacitation after 3 days of cooling.     

Spermatozoa in the sperm-peak-fraction of the boar ejaculate show a lower flow of Ca(2+) under capacitation conditions post-thaw which might account for their higher membrane stability after cryopreservation

Boar spermatozoa collected in the ejaculate sperm peak-portion (P1, first 10 mL of the sperm-rich fraction, SRF), had shown a higher resilience to freezing and thawing compared to spermatozoa from the rest of the ejaculate (2nd portion of the SRF plus the post-sperm-rich fraction, PSRF), even when using a simplified freezing technique, as long as spermatozoa were incubated in their own seminal plasma (SP). This experiment studied the stability of P1- and SRF-P1 boar spermatozoa frozen in MiniFlatPacks (MFP), post-thaw, using flow cytometry. Since spermatozoa from either portion showed similar cryosurvival and low proportions of unstable membranes (<3%, annexin-V/propidium iodide staining), and only a tendency for SRF-P1 live spermatozoa to depict acrosome exocytosis (FITC-PNA/PI/H33342); they were explored for Ca(2+) contents using a Fluo-4 probe under in vitro capacitating conditions (mBO+ medium), as well they were tested for their ability to sustain a short Ca(2+)-ionophore (A23187) in vitro challenge. The proportions of live spermatozoa depicting high Ca(2+)-levels were initially <2% but increased over incubation time, particularly in SRF-P1(P<0.05), while proportions of live spermatozoa with low Ca(2+)-levels were basically constant over incubation time (~11-14%), for either portion. Incubation in capacitation medium did not modify the proportions of low-Ca(2+) but dramatically increased the proportions of high-Ca(2+) spermatozoa (P<0.001) already after 15 min exposure, highest for SRF-P1 spermatozoa. While the proportion of live spermatozoa with intact acrosome was significantly decreased among SRF-P1 (P<0.001), that of P1-spermatozoa remained unchanged, probably owing to the lowest relative content of cytosolic Ca(2+). The results suggest that spermatozoa in the P1-portion are more resilient to express acrosome exocytosis post-thaw compared to those bathing in the rest of the SRF-fraction when cryopreserved using a simplified technique, in MFPs.     

Phosphatidylinositol 3-kinase pathway regulates sperm viability but not capacitation on boar spermatozoa

Phosphatidylinositol 3-kinase (PI3-K) plays an important role in cell survival in somatic cells and recent data pointed out a role for this kinase in sperm capacitation and acrosome reaction (AR). This study was undertaken to evaluate the role of PI3-K pathway on porcine spermatozoa capacitation, AR, and viability using two unrelated PI3-K inhibitors, LY294002 and wortmannin. In boar spermatozoa, we have identified the presence of PDK1, PKB/Akt, and PTEN, three of the main key components of the PI3-K pathway. Incubation of boar sperm in a capacitating medium (TCM) caused a significant increase in the percentage of capacitated (25 +/- 2 to 34 +/- 1% P < 0.05, n = 6) and acrosome reacted (1 +/- 1 to 11 +/- 1% P < 0.01, n = 6) spermatozoa compared with sperm in basal medium (TBM). Inhibition of PI3-K did affect neither the capacitation status nor AR nor protein p32 tyrosine phosphorylation of boar spermatozoa incubated in TBM or TCM. Boar sperm viability in TBM was significantly decreased by 40 and 20% after pretreatment with LY294002 or wortmannin, respectively. Similar results were observed after incubation of boar spermatozoa in TCM. Treatment of boar spermatozoa with the analog of cAMP, 8Br-cAMP significantly prevented the reduction on sperm viability. Our results provide evidence for an important role of the PI3-K pathway in the regulation of boar sperm viability and suggests that other signaling pathways different from PI3-K must be activated downstream of cAMP to contribute to regulation of sperm viability. Finally, in our conditions the PI3-K pathway seems not related with boar sperm capacitation or AR.     

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.     

Membrane status of boar spermatozoa after cooling or cryopreservation

This study tested the hypothesis that sperm membrane changes during cooling contribute substantially to the membrane damage observed after cryopreservation of boar spermatozoa. Flow cytometry was used to assess viability (percentages of live and dead cells) of boar sperm cells after staining with SYBR-14 and propidium iodide (PI) and acrosome status after staining with FITC-pisum sativum agglutenin and PI. Incubation (38 degrees C, 4 h), cooling (to 15 or 5 degrees C) and freezing reduced the proportion of live spermatozoa compared with those in fresh semen. There were more membrane changes in spermatozoa cooled to 5 degrees C than to 15 degrees C. The proportion of live spermatozoa decreased during processing for cryopreservation and cooling to 5 degrees C, but was unaffected by freezing and thawing if held at 15 degrees C for 3.5 h during cooling. Spermatozoa not held during cooling exhibited further loss of viability after freezing and thawing. Holding the spermatozoa also increased the proportion of acrosome-intact spermatozoa at both 15 degrees C and 5 degrees C and at thawing compared with that of the unheld controls. The results of this study suggest that a substantial proportion of the membrane changes associated with cryopreservation of boar spermatozoa may be attributed to the cooling of the cells to 5 degrees C rather than to the freezing and thawing process, and that sperm membrane changes are reduced when semen is held at 15 degrees C during cooling.     

The ideal holding time for boar semen is 24 h at 17 °C prior to short-cryopreservation protocols

Boar semen cannot be immediately cryopreserved, it need be hold at 17 °C prior to cryopreservation, holding time has been used to improve cryopreserved boar semen, since holding time allows a prolonged interaction between spermatozoa and seminal plasma components. However, until now only few periods of holding time have been studied, and boar semen had been held at 17 °C for 24 h to facilitate its manufacture. Thus, this experiment aims to study the effect several holding time (0, 4, 8, 12, 24, 28 and 32 h) on boar spermatozoa post-thawed (PT) characteristics. Fifteen sperm-rich fractions of ejaculate were extended in Beltsville Thawing Solution and storage at 17 °C. After each holding time (0, 4, 8, 12, 24, 28 and 32 h), a sample was centrifuged, and sperm pellet was diluted in an extender composed of sugars, amino acids, buffers, 20% egg yolk (v/v), antibiotics, 2% glycerol as a cryoprotectant, and 2% methylformamide (v/v). Cryopreservation was performed with an automatic cryopreservation system. Cryopreserved boar semen was evaluated to spermatozoa kinetics, plasma and acrosomal membranes integrity, mitochondrial membrane potential, detection of superoxide anion, plasma membrane fluidity, and peroxidation. Twenty-four hours of holding increase total and progressive motility, rapid spermatozoa, and integrity of plasma and acrosome membranes. To mitochondrial membrane potential, 32 h is needed. However, holding time was not able to control the superoxide anion amount neither membrane lipid peroxidation, and had no effects on membrane fluidity. Thus, to reach the best results of PT boar semen the ideal holding time is 24 h.     

Immunocytological characterization of the outer acrosomal membrane (OAM) during acrosome reaction in boar

In order to study the acrosome reaction in boar, spermatozoa were incubated in a calcium-containing medium in the presence of the calcium ionophore A23187. The time course of the acrosome reaction was assessed by phase-contrast microscopy and correlated with the movement characteristics of the spermatozoa determined by means of multiple-exposure photography (MEP). Different stages of the acrosome reaction could be observed by indirect immunofluorescence using an antibody fraction raised in rabbits against the isolated outer acrosomal membrane (OAM). At the start of the acrosome reaction, a bright fluorescence located exclusively at the acrosomal cap of the sperm head could be observed, whereas after 60-120 min, the fluorescence vanished, indicating the complete loss of the OAM. However, to gain more insight into the stages of the plasma membrane and OAM during the acrosome reaction, immunoelectron-microscopical studies were performed using anti-OAM antibodies detected by the protein-A gold method. Ultrathin sections and total preparations in combination with transmission electron microscopy (TEM) confirmed, that boar spermatozoa start their acrosome reaction by a vesiculation of the plasma membrane, thus exposing the heavily labelled OAM, which is then lost as sheets or large vesicles. The newly exposed inner acrosomal membrane did not show any labelling with gold, thereby indicating clear differences in the antigenicity of both acrosomal membranes.     

Immunocytological characteriziation of the outer acrosomal membrane (OAM) during acrosome reaction in boar

Summary In order to study the acrosome reaction in boar, spermatozoa were incubated in a calcium-containing medium in the presence of the calcium ionophore A23187. The time course of the acrosome reaction was assessed by phasecontrast microscopy and correlated with the movement characteristics of the spermatozoa determined by means of multiple-exposure photography (MEP). Different stages of the acrosome reaction could be observed by indirect immunofluorescence using an antibody fraction raised in rabbits against the isolated outer acrosomal membrane (OAM). At the start of the acrosome reaction, a bright fluorescence located exclusively at the acrosomal cap of the sperm head could be observed, whereas after 60–120 min, the fluorescence vanished, indicating the complete loss of the OAM. However, to gain more insight into the stages of the plasma membrane and OAM during the acrosome reaction, immunoelectron-microscopical studies were performed using anti-OAM antibodies detected by the protein-A gold method. Ultrathin sections and total preparations in combination with transmission electron microscopy (TEM) confirmed, that boar spermatozoa start their acrosome reaction by a vesiculation of the plasma membrane, thus exposing the heavily labelled OAM, which is then lost as sheets or large vesicles. The newly exposed inner acrosomal membrane did not show any labelling with gold, thereby indicating clear differences in the antigenicity of both acrosomal membranes.     

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.     

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.