Acrosin release and acrosin activity during incubation in capacitating media using fresh and frozen-thawed dog sperm

We evaluated the effect of time and temperature on acrosin release from the acrosomal cap and the activity of this enzyme during in vitro capacitation in fresh and frozen/thawed dog sperm. Sperm-rich fractions of six ejaculates from three dogs were processed as fresh and frozen samples. Each sperm sample was incubated in canine capacitation medium (CCM) for 0, 1, 2 and 3 h at 20°C and at 37°C. After incubation, the samples were assessed by the indirect immunofluorescent staining technique. The probability of having unlabeled sperm (PUS), indicating acrosin loss, was modelled by a binomial distribution using logistic regression. There was a linear relationship between PUS and time at both temperatures (p<0.001); however, a major percentage of unlabeled sperm was observed in frozen/thawed samples soon after incubation, indicating that the release of acrosin was affected by capacitation time, mainly in frozen samples. Temperature influenced acrosin release only in cryopreserved sperm (p<0.05). Acrosin activity was measured by digestion halos on slides coated with gelatin-substrate film during each time period; a significant increase in the number of large halos was observed in fresh samples throughout the experiment, whereas frozen/thawed sperm showed a decreased rate of halo diameters during culture. Thus, there appears to differences between fresh and frozen dog sperm in terms of acrosin release and the level of acrosin activity in the course of in vitro capacitation.     

Localization of rabbit sperm acrosin during the acrosome reaction induced by immobilized zona matrix

To better understand the loss of the acrosomal cap on the surface of the zona pellucida and the function of the equatorial-postacrosomal region after the acrosome reaction, we have constructed an in vitro system using heat-solubilized zonae pellucidae dried onto a coverslip and incubated with capacitated spermatozoa. This system allows good optical resolution of spermatozoonzona interaction. Induction of the acrosome reaction by zonae on coverslips (30%) is comparable to the induction of the reaction reported previously for rabbit spermatozoa using solubilized zonae in solution. Antiserum to rabbit proacrosin, antiserum to a porcine 49-kDa proacrosin fragment, and antiserum to a porcine 14-kDa C-terminal acrosin fragment were utilized to monitor the acrosome reaction. Rabbit proacrosin/acrosin is not present on the surface of live, acrosome-intact, swimming spermatozoa. After contact with zona, the acrosome reaction begins and proacrosin/acrosin becomes available to bind antibody, first as a crescent in the apical region and then more posteriorly until the entire anterior acrosome is labeled. Proacrosin/acrosin remains on the equatorial and postacrosomal regions of acrosome-reacted spermatozoa and also remains associated with the acrosomal cap even after the spermatozoon is no longer associated with it. Further studies using zona-coated coverslips should lead to a more detailed understanding of the mechanism of zona penetration.     

Ultrastructural localization of proacrosin and acrosin in ram spermatozoa

Proacrosin and acrosin were localized immunocytochemically at the electron microscope level in ram spermatozoa undergoing an ionophore-induced acrosome reaction. Antigenicity was preserved after fixation with 0.5% w/v ethyl-(dimethylaminopropyl)-carbodimide, and an antibody preparation was used that reacted with all major forms of ram acrosin. All stages of the acrosome reaction could be observed in a single preparation. At the earliest stage, labeling was observed throughout the acrosomal contents, which were just beginning to disperse. As dispersal proceeded, labeling diminished, being associated only with visible remnants of the acrosomal matrix. By the time the acrosome had emptied, almost no labeling could be detected on the inner acrosomal membrane. The relationship between matrix dispersal and proacrosin activation was studied in isolated ram sperm heads. While proacrosin was prevented from activating, the acrosomal matrix remained compact; but as activation proceeded, the matrix decondensed and dispersed in close parallel. By the time proacrosin activation was complete, the acrosomal contents had almost entirely disappeared. We conclude that proacrosin is distributed throughout the acrosomal contents as an intrinsic constituent of the acrosomal matrix. During the acrosome reaction, proacrosin activation occurs, resulting directly in decondensation of the matrix. All the contents of the acrosome including acrosin disperse and, by the time the acrosome is empty and the acrosomal cap is lost, only occasional traces of acrosin remain on the inner acrosomal membrane. Since the acrosomal cap is normally lost during the earliest stages of zona penetration, acrosin's role in fertilization is unclear: it does not appear to be a zona lysin bound to the inner acrosomal membrane.     

Golden hamster perivitelline spermatozoa do not show proacrosin/acrosin at the inner acrosomal membrane.

It has been suggested that acrosin may function in penetration of the zona pellucida and of the highly structured extracellular matrix of the perivitelline space. In this study we investigated whether golden hamster perivitelline spermatozoa contain proacrosin/acrosin, as evidenced by the silver enhanced immunogold technique using the monoclonal antibody antiacrosin C2E5. None of the 197 spermatozoa recovered from the perivitelline space showed proacrosin/acrosin associated with the acrosomal region, suggesting that acrosin would not play a role in the penetration of the perivitelline extracellular matrix.     

Proacrosin activation and acrosin release during the guinea pig acrosome reaction

The kinetics of proacrosin activation and release from guinea pig spermatozoa during the nonsynchronous acrosome reaction were studied. Epididymal spermatozoa were incubated at 37 degrees C in a defined medium (pH 7.8) containing 1.7 mM Ca2+. After 195 min, 78% of the motile spermatozoa had undergone the acrosome reaction as determined by light microscopy. Acrosin and proacrosin levels in the spermatozoa and medium were measured at the beginning of the incubation period. Most of the total acrosin activity (78%) was associated with the spermatozoa, of which greater than 90% was in the form of proacrosin. Proacrosin represented a small, stable fraction (23%) of the total acrosin in the medium; it did not activate to acrosin while in the medium. After 195 min, a decrease in sperm-associated total acrosin (42%; p less than 0.05) was accompanied by an increase in the total acrosin level in the medium (115%; P less than 0.05). No change in the relative proacrosin content (percent of total acrosin) was evident in either medium or spermatozoa. Additional experiments quantified acrosin and proacrosin during the progression of the acrosome reaction. Both the loss of sperm-associated total acrosin and the increase in total acrosin levels in the medium were highly correlated with the fraction of acrosome-reacted spermatozoa (r = 0.954 and 0.922, respectively; P less than 0.001). However, the rate of acrosin appearance in the medium was only 60% (P less than 0.001) of the rate of acrosin loss from the spermatozoa. The fractional proacrosin content of spermatozoa (94%) and medium (31%) remained unchanged during the acrosome reaction (r = 0.15 and 0.30, respectively; P greater than 0.1).(ABSTRACT TRUNCATED AT 250 WORDS)     

Seasonal influence on semen traits and freezability from locally adapted Curraleiro bulls

Studies were conducted to characterize the effect of season of the year on testicular morphology, fresh and frozen/thawed semen quality from Curraleiro (Pé-duro) bulls in the Brazilian Central west region. Five adult, healthy bulls underwent an andrological examination and semen collection using an electroejaculator, once a month for a year. Fresh and thawed semen were evaluated for progressive sperm motility and sperm vigor, sperm morphology and acrosomal integrity. Testicular length and volume were less (P<0.05) in April than in the other months of the year. For fresh semen, the ejaculate in April had less volume and sperm concentration (P<0.05), while sperm vigor was less (P<0.05) in June, increasing in January and February. With the frozen/thawed semen, the proportion of sperm was greater (P<0.05) in April to July, decreasing from October to December. Semen collected in December had the greatest (P<0.05) proportion of major defects while that collected in February/March had the highest proportion of minor defects. The proportion of live intact sperm reduced progressively from December to April/May. The marginal influence of the time of the year on testicular biometry and fresh semen in Curraleiro bulls shows the adaptation of this breed to the environmental conditions in the region. Thus, reproduction with natural mating should be successful at any time of year. For frozen semen collection for conservation programs, the best time of year is from June to September.     

Immunolocalization of proacrosin/acrosin in rabbit sperm during acrosome reaction and in spermatozoa recovered from the perivitelline space

The participation of acrosin in mammalian sperm penetration through the zona pellucida has been amply debated. In this paper we report the immunolocalization—by silver enhanced immunogold technique using ACRO-8C10 monoclonal antibody to human acrosin—of proacrosin/acrosin on ejaculated rabbit spermatozoa incubated in vitro in a capacitating medium and on spermatozoa recovered from the perivitelline space. After incubation in a capacitating medium, four different patterns were observed: (1) no labeling on acrosome intact spermatozoa; (2) labeling on the rim of the head; (3) labeling on the whole acrosome area; and (4) no labeling on acrosome reacted spermatozoa. At the start of incubation, spermatozoa with pattern 1 were the most abundant, whereas at the end of the 32 h incubation period, patterns 2 and 3 were the most frequent. On the other hand, 625 perivitelline spermatozoa were recovered from 17 fertilized rabbit eggs, of which 26% were labeled with the anti-acrosin monoclonal antibody ACRO-8C10 in two different areas: (1) only on the equatorial region; and (2) only on the postacrosomal area. These results are consistent with the idea that proacrosin/acrosin remains associated to the acrosome reacted spermatozoa for long periods of time, and that proacrosin/acrosin associated to perivitelline spermatozoa could be responsible for the second penetration of fresh rabbit eggs by perivitelline spermatozoa. © 1994 Wiley-Liss, Inc.     

Acrosomal enzymes of human spermatozoa before and after in vitro capacitation

The effect of in vitro capacitation (events that occur before the acrosome reaction) on the acrosomal enzymes of human spermatozoa was determined. Capacitation of human spermatozoa was assessed by their ability to penetrate denuded hamster oocytes. The activities of a number of enzymes commonly associated with the sperm acrosome, including nonzymogen acrosin, proacrosin, inhibitor-bound acrosin, hyaluronidase, acid phosphatase, beta-glucuronidase, beta-glucosidase, beta-N-acetylglucosaminidase, beta-galactosidase and beta-N-acetylgalactosaminidase were assessed. With the exception of acid phosphatase, no alteration in enzyme activity occurred after 4 h of incubating the spermatozoa under capacitation conditions although gamete fusion took place. The acid phosphatase levels decreased twofold, presumably due to the loss of seminal (prostatic acid phosphatase that loosely adheres to spermatozoa. After 8 h of capacitation, a large decrease in sperm enzyme levels took place only in the case of hyaluronidase, although small decreases were also noted in total acrosin, proacrosin and inhibited acrosin. No new electrophoretically migrating forms of acrosin were observed. Decreases in total acrosin and proacrosin, but not in inhibited acrosin, also occurred when spermatozoa were incubated under noncapacitating conditions for 8 h, indicating that capacitation may specifically cause the release of some acrosin inhibitor from human spermatozoa. It is concluded that, with the possible exception of hyaluronidase, the in vitro capacitation of human spermatozoa does not cause a major change in its acrosomal enzyme content so that these hydrolases are fully present before the acrosome reaction takes place during gamete fusion. Serum albumin appears to protect against the loss of some of these enzymes since the activity of several glycosidases was significantly reduced when the spermatozoa were incubated for 8 h in human serum albumin-free medium.     

In vitro comparison of fowl sperm viability in ejaculates frozen by three different techniques and relationship with subsequent fertility in vivo.

A series of experiments was conducted to compare the viability of fresh fowl spermatozoa, samples suspended in three cryoprotectants (CPAs), frozen/thawed samples, and frozen/thawed samples maintained in vitro for up to 24 h. The CPAs used were glycerol (Glyc), dimethylacetamide (DMA), and dimethylformamide (DMF). Viability was assayed using two double stains, Eosin + Nigrosin or SYBR-14 + PI (propidium iodide). Semen samples examined with SYBR-14 + PI indicated significant differences in viability between fresh and ready-to-freeze preparations (fresh, 83%; Glyc, 73%; DMA, 74%; DMF, 72%; P < 0.05). In contrast, Eosin + Nigrosin did not detect any difference at this stage (fresh, 88%; Glyc, 86%; DMA, 87%; DMF, 88%; P > 0.05). The percentages of viable spermatozoa in frozen/thawed ejaculates stored in vitro for 0, 4, and 24 h were generally higher in samples treated with glycerol than in those treated with DMA or DMF, irrespective of the technique used to assess sperm viability (P < 0.05). Fertility in eggs obtained from hens inseminated with semen frozen in DMA reached levels comparable to those obtained from hens inseminated with fresh undiluted semen (88 and 93%, respectively; P > 0.05). In contrast, fertility of eggs from hens inseminated with semen frozen in DMF or glycerol was significantly lower, although still very good, than that observed in eggs from hens inseminated with semen frozen/thawed in DMA (79 and 76%, respectively; P < 0.05). Finally, the double stain SYBR-14 + PI was proven more effective than Eosin + Nigrosin to assess sperm viability in fresh, stored, and frozen fowl semen. However, additional tests (e.g., morphology, acrosomal status, motility) remain necessary to develop a working model of in vitro sperm analysis capable of revealing the fertilizing potential of fresh and frozen fowl spermatozoa.     

Proteolytic activity of rabbit perivitelline spermatozoa.

Acrosin, an acrosomal serine protease, has been associated with binding of spermatozoa and their penetration through the zona pellucida. This study was aimed at determining whether the remaining proacrosin/acrosin system on rabbit perivitelline spermatozoa still has proteolytic activity and whether this activity is involved in further penetration of unfertilised rabbit eggs. Eight hundred and sixty-five rabbit perivitelline spermatozoa were evaluated by the gelatin-substrate film technique for the detection of acrosin on individual spermatozoan. Fifteen per cent of the studied spermatozoa showed small digestion halos on the gelatin film. The proteolytic activity of rabbit perivitelline spermatozoa was inhibited in the presence of 1 mg/ml of soybean trypsin inhibitor (SBTI) or with 20 micrograms/ml of a mixture of the monoclonal anti-proacrosin/acrosin antibody. In vitro fertilisation occurred in 21.8% of rabbit oocytes co-incubated with perivitelline spermatozoa and was completely inhibited when oocytes were incubated with 600 micrograms/ml of a mixture of three anti-acrosin monoclonal antibodies (ACRO-A8C10, ACRO-C2B10 and ACRO-C5F10). Inseminations in the presence of anti-cholera monoclonal antibody (irrelevant to spermatozoa) resulted in 17.6% fertilisation. These results support the idea that the residual proacrosin/acrosin system in perivitelline spermatozoa might be involved in spermatozoal binding and/or second penetration through the zona pellucida.     

Immunological approach to characterize proacrosin and various acrosin forms in boar and man by monoclonal antibodies

Three different monoclonal rat antibodies, Acr1, Acr2, and Acr3, have been established against boar proacrosin. They are shown by enzyme-linked immunosorbent and immunoblot assays to react with boar proacrosin and several different acrosin molecules derived therefrom during activation. The epitopes detected by the three antibodies are different from each other, one being highly sensitive to reduction and periodate treatment. The antibodies crossreact with various proacrosin and acrosin molecules derived from human sperm extract; they also show indirect immunofluorescent staining of the acrosomal region of ejaculated sperm from normal men but fail to react with round-headed spermatozoa.     

Effects of various conditions of semen storage on the acrosin system of human spermatozoa

Stability of the human sperm acrosin system (major components: non-zymogen acrosin, proacrosin and acrosin inhibitor) was studied under various conditions of semen storage used clinically or in the laboratory. Freezing at -196 degrees C caused a profound decrease in total acrosin content and in the amount of this enzyme present in zymogen form (proacrosin), but resulted in some increase in non-zymogen acrosin. Acrosin inhibitor did not appear to be significantly affected by this treatment. No relationship was present between the decreases in sperm motility induced by freezing to -196 degrees C and the alterations in total acrosin, proacrosin and non-zymogen acrosin. Storage of whole semen at -20 degrees C had deleterious effects on all the components of the acrosin system measured except for non-zymogen acrosin. Major decreases in the total acrosin, proacrosin and acrosin inhibitor occurred after only 1 day at -20 degrees C and continued slowly thereafter. Whole semen kept at room temperature for up to 24 h after ejaculation did not show any significant changes in the sperm acrosin system. Seminal plasma did not have a detrimental or stabilizing effect of acrosin and proacrosin when spermatozoa were kept at room temperature. However, removal of seminal plasma and re-suspension of spermatozoa in 0.9% NaCl resulted n the liberation of a significant amount of the acrosin inhibitor from the spermatozoa and the apparent activation of some of the proacrosin to acrosin.     

Benzamidine as an inhibitor of proacrosin activation in bull sperm.

Epididymal and ejaculated sperm contain a zymogen form of acrosin (acrosomal proteinase, EC 3.4.21.10) which is converted to active enzyme prior to fertilization. Benzamidine at concentrations greater than 10 mM has been shown to inhibit the conversion of proacrosin to acrosin. Based on this inhibition, a procedure was developed for extracting and quantitating the proacrosin content of bull sperm. Sperm were isolated from semen and washed by centrifugation through 1.3 M sucrose and the outer acrosomal membrane removed by homogenization. When 25 mM benzamidine was added to the semen and wash solutions, 98% or more of the acrosin activity in the sperm homogenate was present as proacrosin. Proacrosin can be extracted from the sperm homogenate by dialysis at pH 3, which solubilized the proenzyme and removed benzamidine. Benzamidine has been useful in isolating proacrosin and provides a new method for studying the activation of proacrosin in intact sperm. Neutralization of sperm extracts, after removal of benzamidine, resulted in rapid activation of proacrosin with a pH optimum of 8.5, and activation was complete within 15 min over a pH range of 7.0 to 9.5. Rapid activation also occurred during the washing of sperm in the absence of benzamidine, and this activation correlated with a swelling of the acrosomal membrane. This rapid activation appears to result from a small amount of acrosin activity consistently present in the sperm extract. These results indicate an autocatalytic conversion of proacrosin to acrosin and suggest that disruption of the acrosomal membrane may trigger this activation.     

Determination of acrosin amidase activity in equine spermatozoa

Acrosin amidase activity of spermatozoa has been been associated with in vitro fertilization success in humans and has been proposed as an additional method for assessing sperm function in vitro. In this study, acrosin amidase activity was determined in equine spermatozoa by the hydrolysis of an arginine amide substrate. This assay includes a detergent to release acrosomal enzymes into a medium of basic pH to activate proacrosin to acrosin, which subsequently hydrolyses N-alpha-benzoyl-DL-arginine para-nitroanilide-HCl (BAPNA) to a chromogenic product. Spermatozoa (n = 3 ejaculates from each of 4 stallions) were washed free from seminal plasma by centrifugation through Ficoll and incubated with a detergent-substrate mixture (BAPNA in triton X-100; pH = 8.0) at room temperature for 3 h in the dark. At the end of the 3-h incubation, benzamidine was added to test samples to stop the reaction, and samples were centrifuged to remove spermatozoa. Absorbance at 410 nm was measured to determine acrosin amidase activity (microIU acrosin/10(6) sperm). Acrosin amidase activity increased with sperm concentration (P < 0.001; r(2) = 0.75), and there were significant effects (P < 0.001) of stallion and ejaculate within stallion on acrosin activity. Acrosin activity detectable in equine seminal plasma was 312 +/- 49 microU/ml (n = 3 ejaculates). Addition of a cryopreservation medium containing egg yolk, skim-milk, glycerol and sucrose to equine spermatozoa and subsequent cryopreservation significantly (P < 0.05) increased acrosin amidase activity compared with spermatozoa from raw semen. This result is in contrast to that previously reported for frozen-thawed human spermatozoa. Determination of acrosin amidase activity in equine spermatozoa may provide an alternative method for assessing sperm function in vitro; however, further studies are needed to determine the relationship between acrosin activity and fertility in the horse.     

Proacrosin activation in the presence of a 32-kDa protein from boar spermatozoa

A 32-kDa protein was purified from acrosomal extracts of ejaculated boar spermatozoa as a complex with 55- and 53-kDa proacrosins. In the presence of the 32-kDa protein, these proacrosins were sequentially converted by autoactivation to a 49-kDa intermediate, a 43-kDa intermediate, and then a 35-kDa mature acrosin. This activation process was consistent with that in the absence of the 32-kDa protein, but differed in producing the 49-kDa form as the predominant acrosin intermediate. Thus, the 32-kDa protein may be a regulatory protein for proacrosin activation. The 49-kDa intermediate was a two-chain polypeptide with the amino-terminal sequences corresponding to those of the light and heavy chains of mature acrosin, whereas the carboxyl-terminal sequence of its heavy chain was identical with that of the 53-kDa proacrosin. These results suggest that the 49-kDa intermediate is produced from 53-kDa proacrosin during proacrosin activation by the cleavage of the peptide bond between Arg-23 and Val-24, which results in the formation of the light and heavy chains.     

EARLY STEPS OF SPERM—EGG INTERACTIONS DURING MAMMALIAN FERTILIZATION

Mammalian eggs are surrounded by two egg coats: the cumulus oophorus and the zona pellucida, which is an extracellular matrix composed of sulfated glycoproteins. The first association of the spermatozoon with the zona pellucida occurs between the zona glycoprotein, ZP3 and sperm receptors, located at the sperm plasma membrane, such as the 95kDa tyrosine kinase-protein. This association induces the acrosome reaction and exposes the proacrosin/acrosin system. Proacrosin transforms itself, by autoactivation, into the proteolytical active form: acrosin. This is a serine protease that has been shown to be involved in secondary binding of spermatozoa to the zona pellucida and in the penetration of mammalian spermatozoa through it. The zona pellucida is a specific and natural substrate for acrosin and its hydrolysis and fertilization can be inhibited by antiacrosin monoclonal antibodies. Moreover, inin vitrofertilization experiments, trypsin inhibitors significantly inhibits fertilization. The use of the silver-enhanced immunogold technique has allowed immunolocalization of the proacrosin/acrosin system in spermatozoa after the occurrence of the acrosome reaction. This system remains associated to the surface of the inner acrosomal membrane for several hours in human, rabbit and guinea-pig spermatozoa while in the hamster it is rapidly lost. In the hamster, the loss of acrosin parallels the capability of the sperm to cross the zona pellucida. Rabbit perivitelline spermatozoa can fertilize freshly ovulated rabbit eggs and retain acrosin in the equatorial and postacrosomal region. These spermatozoa also show digestion halos on gelatin plates that can be inhibited by trypsin inhibitors. This evidence strongly suggests the involvement of acrosin in sperm penetration through the mammalian zona. Recently it was shown, however, that acrosin would not be essential for fertilization. It is likely, then, that such an important phenomenon in the mammalian reproductive cycle would be ensured though several alternative mechanisms.     

Effects of spermatozoal concentration and post-thaw dilution rate on survival after thawing of dog spermatozoa

The objectives of this study were to evaluate the effects and interactions of freezing dog semen using 4 different sperm concentrations (50 x 10(6), 100 x 10(6), 200 x 10(6) and 400 x 10(6) spermatozoa/mL) in 0.5-mL straws and diluting the thawed semen at 4 different rates (1:0, 1:1, 1:2 and 1:4) on post-thaw survival and longevity of dog spermatozoa during incubation at 38 degrees C. Fifteen ejaculates were collected from 12 dogs and pooled. The semen pool was divided into 4 aliquots containing respectively 4,200 x 10(6), 2,100 x 10(6), 1,050 x 10(6) and 525 x 10(6) spermatozoa, which were centrifuged. Sperm pellets were rediluted with TRIS-glucose-egg yolk extender containing 5% glycerol and 0.5% of Equex STM Paste to obtain the designated sperm concentrations. The semen was frozen in 0.5-mL straws 4 cm above liquid nitrogen (LN2). The straws were thawed at 70 degrees C for 8 sec and the contents of each straw were divided into 4 aliquots and diluted with TRIS buffer at 38 degrees C at rates of 1:0, 1:1, 1:2 and 1:4 (semen:buffer), respectively, making a total of 16 treatments. Sperm motility was subjectively evaluated after thawing and at 1-h intervals during 8 h of incubation at 38 degrees C. Plasma membrane integrity and acrosomal status were evaluated at 1, 3, 6, 12 and 18 h post-thaw using a triple-staining procedure and flow cytometry. For data pooled across the post-thaw dilution rate, motility was higher (P< 0.001) in samples frozen with 200 x 10(6) spermatozoa/mu. The integrity of sperm plasma membranes after 18 h incubation was higher (P<0.05) in samples frozen with 200 x 10(6) and 400 x 10(6) spermatozoa/mL. For data pooled across sperm concentration, samples diluted at a rate of 1:2 or 1:4 had better (P<0.001) motilities after 8 h of incubation than undiluted samples or those diluted at 1:1. The integrity of the sperm plasma membranes was higher (P<0.001) at increasing dilution rates. When the 16 treatments were compared, the best longevity was obtained when semen packaged at a concentration of 200 x 10(6) spermatozoa/mL was diluted immediately after thawing at 1:4 dilution rate.     

Proacrosin/acrosin activity during spermiohistogenesis of the bull

Abstract. Acrosin and its zymogen form, proacrosin, were extracted from early and late spermatids, from ejaculated and epididymal spermatozoa ( caput, corpus , and cauda ) of the bull. Activity of proacrosin/acrosin and the time course of proacrosin activation were studied. It turned out that proacrosin/acrosin activity is first demonstrable in haploid spermatids, increases during spermiohistogenesis in the testis, and remains nearly constant in epididymal and ejaculated spermatozoa.     

Proacrosin/acrosin activity during spermiohistogenesis of the bull

Acrosin and its zymogen form, proacrosin, were extracted from early and late spermatids, from ejaculated and epididymal spermatozoa (caput, corpus, and cauda) of the bull. Activity of proacrosin/acrosin and the time course of proacrosin activation were studied. It turned out that proacrosin/acrosin activity is first demonstrable in haploid spermatids, increases during spermiohistogenesis in the testis, and remains nearly constant in epididymal and ejaculated spermatozoa.     

The effects of cooling to 5 degrees C and freezing and thawing on the ultrastructure of bull spermatozoa.

Semen from 6 bulls was examined under the transmission electron microscope immediately after collection, after dilution and cooling to 5 degrees C and after freezing and thawing. Conception rates were determined following artificial insemination of the frozen and thawed semen. Dilution and cooling to 5 degrees C caused acrosomal swelling in about 50% of the spermatozoa. Subsequent freezing and thawing caused considerable ultrastructural changes to the acrosomes (disruption of the plasma and outer acrosomal membranes and dispersion of the acrosomal contents) and middle pieces (breakage of the plasma membrane and a reduction in the electron density of the mitochondrial matrix) of a high proportion of spermatozoa. The average non-return rate following insemination of semen from 5 of the bulls was 61.6% and higher (P greater than 0.001) than for the sixth bull (15%). Although this difference in semen viability was also demonstrated in the structural studies (acrosome, P greater than 0.05: middle piece, P greater than 0.001), more work is required to assess the relationship between structure and function of spermatozoa.