Nitric oxide-induced capacitation of cryopreserved bull spermatozoa and assessment of participating regulatory pathways

The effect of nitric oxide (NO*) on the capacitation rates of cryopreserved bull spermatozoa and the participation of protein kinases in the capacitation process were evaluated. A pool of spermatozoa from four bulls were incubated in TALP medium in the presence of heparin (10 IU/ml) or sodium nitroprusside (SNP, 0.05-100 microM), a NO* donor. The participation of NO* was confirmed by the use of scavengers, i.e. methylene blue (50,100 microM) and hemoglobin (20-40 microg/ml). The role of nitric oxide synthase in heparin-induced capacitation was evaluated using enzyme inhibitors Nomega-nitro-L-arginine methyl ester (L-NAME) and Nomega-nitro-L-arginine (L-NA) in concentrations ranging from 1 to 500 microM. The effects of protein kinase A (PKA), protein kinase C (PKC) and protein tyrosine kinase (PTK), on NO*-induced capacitation were evaluated by incubation with specific inhibitors of these enzymes (H-89, 50 microM; bisindolylmaleimide I, 0.1 microM and genistein, 3 microM). The role of hydrogen peroxide or superoxide anion in NO*-induced capacitation was evaluated by incubation with catalase (20-100 microg/ml) or superoxide dismutase (SOD, 0.05-0.5 mg/ml), respectively. Capacitation percentages were determined by the fluorescence technique with chlortetracycline (CTC). SNP concentrations employed had no effect on progressive motility or sperm viability. Capacitation values of the 0.05 microM SNP treatment (31 +/- 5.15%) were similar to those of heparin treated samples (33 +/- 4.27%). Inhibitors of nitric oxide synthase (NOS) diminished capacitation percentages in a dose-dependent manner as did the addition of NO*- scavengers (P <0.05). The presence of PKA, PKC and PTK inhibitors likewise decreased capacitation percentages (6.25 +/- 0.71, 12.75 +/- 1.41, 9.00 +/- 1.41%, respectively). The presence of catalase or SOD in the incubation medium had no effect on capacitation percentages. These results indicate that NO* may be generated by a sperm NOS during heparin-induced capacitation and that exogenous NO* acts as a capacitation inducer and involves the participation of PKA, PKC and PTK as part of the intracellular mechanisms that lead to capacitation in cryopreserved bull spermatozoa.     

Reactive oxygen species requirements for bovine sperm capacitation and acrosome reaction

Sperm capacitation is necessary for the fertilization of oocytes. During capacitation intracellular and membrane changes occur, that culminate with an exocytotic event called the acrosome reaction. The aim of this work was to study the participation of the superoxide anion (O2-.) and of hydrogen peroxide (H2O2) in the capacitation process and acrosome reaction in spermatozoa from cryopreserved bovine semen. Samples were capacitated with heparin or treated with the xanthine-xanthine oxidase-catalase system (X-XO-C) for the production of O2-. The percentage of capacitated spermatozoa was determined using the chlortetracycline (CTC) technique, by means of epifluorescence microscopy. Addition of X-XO-C to the incubation medium significantly induced capacitation (P < 0.05), but there were no differences with samples incubated with heparin. When the medium contained heparin or the X-XO-C, addition of superoxide dismutase (SOD, 0.5 mg/mL) significantly inhibited capacitation (P < 0.05). In samples treated with heparin and with diverse concentrations of H2O2 (10, 25, 50 and 250 microM) in the incubation medium, the percentage of capacitated spermatozoa was significantly reduced (P < 0.05); however, acrosome reaction was produced at concentrations of 10 and 25 microM H2O2. At concentrations greater than 25 microM H2O2 a deleterious effect was observed on sperm motility. From these results it may be inferred that O2-. is required in the capacitation process and that H2O2 may participate as an inductor of the acrosome reaction in spermatozoa from cryopreserved bovine semen.     

Heparin- and superoxide anion-dependent capacitation of cryopreserved bovine spermatozoa: requirement of dehydrogenases and protein kinases

Capacitation is part of an oxidative process necessary for bovine spermatozoa to acquire fertilizing capacity. This process includes the generation of reactive oxygen species (ROS) and the participation of protein kinases such as A (PKA), C (PKC) and tyrosine kinase (PTK). A redox status is required to support both sperm motility and capacitation. Our aim was to determine the requirement of lactate dehydrogenase C4 (LDH-C4) and isocitrate dehydrogenase (NADP-ICDH) and of protein kinases in cryopreserved bovine sperm capacitation. The presence of inhibitors of both LDH-C4 and NADP-ICDH prevented the heparin-induced capacitation. H89, GF109203X or genistein blocked capacitation triggered by heparin or the superoxide (O(-*)(2))generator system xanthine-xanthine oxidase-catalase (XXOC) suggesting the requirement of PKA, PKC and PTK in this process. Taken together these results suggest that LDH-C4 and NADP-ICDH contribute with the redox status to support bovine sperm capacitation and that PKA, PKC and PTK are involved in different mechanisms induced by different inducers that lead bovine spermatozoa to be capacitated.     

Phospholipase A2 activation by hydrogen peroxide during in vitro capacitation of buffalo spermatozoa

Progressively motile, washed buffalo spermatozoa (50 x 10(6) cells in 0.5 ml) were in vitro capacitated in HEPES containing Bovine Gamete Medium 3 (BGM3) in presence of heparin (10 microg/ml), and different concentrations of hydrogen peroxide (10 to 100 microM). Spermatozoa (60%) were capacitated in presence of heparin compared to 56% in presence of 25 microM H2O2 (optimally found suitable for capacitation). The extent of capacitation was measured in terms of acrosome reaction (AR) induced by lysophosphatidyl choline (100 microg/ml). The acrosome reacted cells were counted after triple staining. Catalase (100 microg/ml) significantly reduced the sperm capacitation to 16-18% when added with H2O2, or alone in the capacitation medium. Phospholipase A2 activity of spermatozoa increased linearly up to 50 microM H2O2 concentration included in the assay system. Moreover, significant increase in phospholipase A2 activity was observed after capacitation by both, the heparin and 25 microM H2O2. The activity was always higher in acrosome reacted cells.     

Sperm capacitation in vitro in the eld's deer

Sperm capacitation was examined in the endangered Eld's deer (Cervus eldi thamin). Sperm motility and viability (percentage of sperm cells with intact membranes) were assessed in vitro over time after attempting to induce capacitation in TALP alone and TALP supplemented with calcium (10 mM CaCl2), dibutyryl cAMP (1 mM dbcAMP), or fetal calf serum (20% FCS). Sperm aliquots were evaluated at 0, 3, 6, 9, and 12 h for motility, viability, and ability to acrosome react after exposure to calcium ionophore (A23187, CI; 10 microM) or lysophosphatidylcholine (LC; 100 microg/mL). Fresh sperm aliquots in TALP + 10 mM CaCl2 exposed to CI had fewer (P < 0.05) intact acrosomes than the TALP control (TALP alone) or dbcAMP and FCS treatments after 9 h. Mean (+/- SEM) percentage of intact acrosomes of spermatozoa incubated in medium with increased CaCl2 declined (P < 0.05) from 80.2 +/- 2.6% (0 h) to 49.7 +/- 7.3% after prolonged incubation (9 h). The proportion of capacitated fresh spermatozoa was not influenced by LC treatment. Capacitation was not induced (P > 0.05) by any of the presumptive sperm capacitators after freeze-thawing. Likewise, neither CI nor LC induced the acrosome reaction (AR) in these spermatozoa, suggesting that the freeze-thawing process may have caused membrane damage. Results revealed that the supplementation of medium with CaCl2 evokes capacitation in some spermatozoa. However, Eld's deer spermatozoa appear remarkably resistant to conventional stimulators of capacitation and the AR.     

Capacitation inducers act through diverse intracellular mechanisms in cryopreserved bovine sperm

The effect of various capacitation inducers, i.e. heparin, superoxide anion, bicarbonate, adenosine, and caffeine, and their role in intracellular mechanisms involved in capacitation, were studied in cryopreserved bovine sperm. Capacitation was determined by epifluorescence chlortetracycline, protein tyrosine phosphorylation, and the ability of capacitated sperm to undergo an acrosome reaction and fertilize in vitro matured oocytes. Participation of membrane adenylate cyclase and protein kinases (protein kinase A, protein kinase C, and protein tyrosine kinase) was evaluated indirectly (with specific inhibitors). Involvement of reactive oxygen species (ROS) was determined with scavengers of superoxide anion, hydrogen peroxide, or nitric oxide. Percentages of capacitated (27-29%) and acrosome-reacted sperm (23-26%) did not differ (P > 0.05) among various capacitation inducers. Significantly higher rates of IVF were obtained with heparin (43%) or bicarbonate plus caffeine (45%), when compared with control samples (17%). Adding the membrane adenylate cyclase inhibitor diminished capacitation rates with heparin (8%) or adenosine (10%). There was differential protein kinase participation in response to inducers; protein kinase inhibitors diminished cleavage rates in heparin-capacitated sperm relative to controls. There were differences between and within the studied inducers in protein tyrosine phosphorylation patterns. We inferred that capacitation in cryopreserved bovine sperm was promoted through diverse pathways. Mechanisms triggered by heparin, or caffeine plus bicarbonate-induced capacitation, involved activation of intracellular pathways to optimize fertilizing capability of cryopreserved bovine sperm.     

A differential mechanism is involved during heparin- and cryopreservation-induced capacitation of bovine spermatozoa

After ejaculation, mammalian spermatozoa must undergo capacitation to fertilize. Capacitation of bovine spermatozoa occurs in vitro in medium supplemented with heparin. Semen cryopreservation is an important tool for assisted reproduction, although the fertility of frozen-thawed spermatozoa is reduced, possibly due to precocious capacitation-like changes that are known to occur. Our purpose was to clarify the mechanisms involved in bull sperm cryocapacitation induced by cryopreservation. Our general hypothesis is that the signaling pathways that lead to capacitation are triggered by the cryopreservation procedure. Ejaculated bovine semen was divided into two aliquots and diluted in extender; one was then kept fresh, whereas the second was cryopreserved. Western blots of extracted sperm proteins with anti-phosphotyrosine antibody showed that capacitation, induced by either heparin in fresh sperm or cryopreservation (cryocapacitation), is associated with a differential profile of phosphotyrosine-containing proteins. Immunolocalization of phosphotyrosine-containing proteins in the fresh and cryopreserved spermatozoa showed that, after thawing, cryocapacitated sperm displayed labeling over the acrosomal region, whereas for fresh sperm, this labeling appeared after 5-h incubation with heparin. The chlortetracycline assay and the ability of the sperm to undergo the lysophosphatidylcholine-induced acrosome reaction were used to confirm that a subpopulation of cryopreserved sperm is capacitated at thawing, irrespective of heparin inclusion. Since glucose is known to inhibit heparin-induced capacitation, the semen extender was modified to include glucose as a means of inhibiting cryocapacitation; however, cryocapacitation was not prevented according to the chlortetracycline assay and profile of phosphotyrosine-containing sperm proteins.     

L-arginine promotes capacitation and acrosome reaction in cryopreserved bovine spermatozoa

Sperm capacitation and acrosome reaction are essential for fertilization and they are considered as part of an oxidative process involving superoxide and hydrogen peroxide. In human spermatozoa, the amino acid L-arginine is a substrate for the nitric oxide synthase (NOS) producing nitric oxide (NO*), a reactive molecule that participates in capacitation as well as in acrosome reaction. L-arginine plays an important role in the physiology of spermatozoa and has been shown to enhance their metabolism and maintain their motility. Moreover, L-arginine has a protective effect on spermatozoa against the sperm plasma membrane lipid peroxidation. In this paper, we have presented, for the first time, the effect of L-arginine on cryopreserved bovine sperm capacitation and acrosome reaction and the possible participation of NOS in both processes. Frozen-thawed bovine spermatozoa have been incubated in TALP medium with different concentrations of L-arginine and the percentages of capacitated and acrosome reacted spermatozoa have been determined. L-arginine induced both capacitation and acrosome reaction. NO* produced by L-arginine has been inhibited or inactivated using NOS inhibitors or NO* scavengers in the incubation medium, respectively. Thus, the effect of NOS inhibitors and NO* scavengers in capacitated and non-capacitated spermatozoa treated with L-arginine has also been monitored. The data presented suggest the participation of NO*, produced by a sperm NOS, in cryopreseved bovine sperm capacitation and acrosome reaction.     

Respiratory burst and NAD(P)H oxidase activity are involved in capacitation of cryopreserved bovine spermatozoa

Heparin (a glycosaminoglycan) and quercetin (a calcium-ATPase plasma membrane specific inhibitor) induce bovine sperm capacitation. Mitochondria from frozen semen are capable of generating oxidative energy. The aim of the study was to determine oxygen uptake variation and the participation of diphenileneiodonium (DPI)-sensitive oxidases from spermatozoa capacitated with heparin or quercetin. Oxygen uptake was measured polarographically and 2 microM diphenileneiodonium (DPI) was used as a specific inhibitor of NAD(P)H-oxidases. Sperm capacitation was determined by the chlorotetracycline technique. Heparin produced a respiratory burst (17.0+/-3.2 microL O2/h/10(8) spermatozoa; mean+/-S.D.) versus control (11.3+/-0.9 microL O2/h/10(8) spermatozoa; P<0.05). Oxygen uptake and sperm hypermotility were inhibited by cyanide. Treatment with DPI blocked heparin capacitation and oxygen uptake (cyanide-sensitive) decreased to control levels. Respiration of quercetin-treated samples (cyanide-sensitive; 9.7+/-0.7 microL O2/h/10(8) spermatozoa) was not significantly different from the controls; oxygen uptake was not modified by DPI, but quercetin capacitation was inhibited (P<0.05). The effect of DPI with heparin confirmed that oxidases participate in capacitation induction. The addition of superoxide dismutase and/or catalase to heparin- or quercetin-treated samples, failed to modify oxygen uptake and blocked capacitation (P<0.05), suggesting that the superoxide anion (O2*-) participates in the capacitation induction. High mitochondrial activity from heparin-treated samples indicated that energy requirements, especially for hypermotility, were supported by the respiratory chain. Although a respiratory burst was not produced by quercetin, DPI-sensitive-oxidases (O2*- source) were necessary for capacitation. In cryopreserved bovine spermatozoa, heparin- or quercetin-induced capacitation required different levels of mitochondrial energy and DPI-sensitive oxidase activity.     

Glutathione-S-transferase: Role in buffalo (Bubalus bubalis) sperm capacitation and cryopreservation

In this study, glutathione-S-transferase Mu3 (GST) has been reported to play an important role in sperm capacitation, acrosome reaction, and fertilization. The freshly ejaculated buffalo spermatozoa were in vitro capacitated using heparin (10 μg/mL) or cryopreserved in egg yolk citrate extender. Glutathione-S-transferase was identified and characterized in terms of their isozymic forms, tyrosine phosphorylation, and immunolocalization patterns in cryopreserved buffalo spermatozoa in comparison with freshly ejaculated and in vitro capacitated spermatozoa. Two-dimensional gel electrophoresis, immunoblot, immunocytochemistry, and enzyme activity analyses were done to characterize GST in this study. Five and eight isozymic forms of GST were detected in cryopreserved and capacitated spermatozoa, respectively. Differential tyrosine phosphorylation of these enzymes was observed in cryopreserved and capacitated spermatozoa. The tyrosine phosphorylation of this enzyme involved cAMP protein kinase-A dependent and extracellular signal-regulated kinase independent pathways during in vitro capacitation of the spermatozoa. Differential immunolocalization patterns of GST were observed in freshly ejaculated, capacitated, and cryopreserved spermatozoa. Glutathione-S-transferase Mu3 enzyme activity was found to be significantly (P < 0.05) different in freshly ejaculated, capacitated, and cryopreserved spermatozoa. Activity of GST was significantly (P < 0.05) increased with the progression of capacitation. The cryopreserved spermatozoa showed significantly (P < 0.05) greater enzyme activity compared with fresh spermatozoa and was equal to 2-hour capacitated spermatozoa. The cryopreserved spermatozoa showed significant (P < 0.05) loss of GST enzyme protein. Tyrosine phosphorylated GST showed significantly (P < 0.05) greater activity compared with their dephosphorylated forms. The information generated in this study can be used to understand the molecular mechanism of the effects of GST on capacitation. Regulation of GST during sperm cryopreservation could be a good target to improve fertility of cryopreserved spermatozoa for their use in assisted reproductive technologies.     

Hamster zonae pellucidae cannot induce physiological acrosome reactions in chemically capacitated hamster spermatozoa in the absence of albumin

Cauda epididymal hamster spermatozoa were capacitated with D-penicillamine in a chemically defined (protein-free) medium (= "chemical" capacitation). Hamster zonae pellucidae were incapable of inducing functional acrosome reactions in chemically capacitated hamster sperm in a protein-free medium during sperm-egg coincubation. The culture medium used throughout incubation was a modified Tyrode's solution containing 10 mM sodium lactate, 100 microM sodium pyruvate and 1.0 mg/ml polyvinylalcohol (TLP-PVA). Sperm motility was maintained in all media with PHE (20 microM penicillamine, 100 microM hypotaurine, and 1.0 microM epinephrine). Additional D-penicillamine (125 or 500 microM) or 3 mg/ml bovine serum albumin (high control: TALP-PVA) was used to capacitate sperm during preincubation at 1-2 X 10(6) sperm/ml for 4.0 h at 37 degrees C in 5% CO2 in air. Sperm were then coincubated (2 X 10(4) sperm/ml) with cumulus-free hamster eggs in TALP-PVA or TLP-PVA +/- additional D-penicillamine (total: 500 or 125 microM) for 1.5 or 6.0 h. Percent egg penetration was used as the definitive index of sperm capacitation and functional acrosome reactions. Chemically capacitated sperm did not penetrate eggs (0.0 +/- 0.0%) in the absence of albumin during 1.5 h of sperm-egg coincubation. When sperm were chemically capacitated with 125 microM or 500 microM D-penicillamine, then coincubated with eggs for 6.0 h in the absence of albumin, only 18.8 +/- 28.6% and 23.7 +/- 29.7%, respectively, of eggs were penetrated. Significantly (p less than 0.05) more eggs (67.7 +/- 22.4%) were penetrated when coincubated with chemically capacitated sperm for 1.5 h in medium containing albumin. These results demonstrate that zonae pellucidae of hamster eggs require the presence of albumin to efficiently induce functional acrosome reactions in sperm that are chemically capacitated with D-penicillamine.     

Tyrosine phosphoproteome of hamster spermatozoa: Role of glycerol‐3‐phosphate dehydrogenase 2 in sperm capacitation

Capacitation confers on the spermatozoa the competence to fertilize the oocyte. At the molecular level, a cyclic adenosine monophosphate (cAMP) dependent protein tyrosine phosphorylation pathway operates in capacitated spermatozoa, thus resulting in tyrosine phosphorylation of specific proteins. Identification of these tyrosine‐phosphorylated proteins and their function with respect to hyperactivation and acrosome reaction, would unravel the molecular basis of capacitation. With this in view, 21 phosphotyrosine proteins have been identified in capacitated hamster spermatozoa out of which 11 did not identify with any known sperm protein. So, in the present study attempts have been made to ascertain the role of one of these eleven proteins namely glycerol‐3‐phosphate dehydrogenase 2 (GPD2) in hamster sperm capacitation. GPD2 is phosphorylated only in capacitated hamster spermatozoa and is noncanonically localized in the acrosome and principal piece in human, mouse, rat, and hamster spermatozoa, though in somatic cells it is localized in the mitochondria. This noncanonical localization may imply a role of GPD2 in acrosome reaction and hyperactivation. Further, enzymatic activity of GPD2 during capacitation correlates positively with hyperactivation and acrosome reaction thus demonstrating that GPD2 may be required for sperm capacitation.     

肝素处理山羊精子体外获能的研究

系统研究了作用浓度、时间和温度以及输卵管上皮细胞和卵丘细胞对肝素处理山羊精子体外获能后的精子活力、质膜完整性、顶体完整率、获能比例及受精和卵裂的影响,为改善山羊精子体外获能效果和研究获能机理提供了必要的数据。主要实验结果如下：1、在获能液中添加5、10、25、50和100μg/mL肝素处理45min时,添加50和100μg/mL肝素精子获能比率最高（分别为55%和56%）,但添加100μg/mL肝素处理后顶体完整率明显（P<0.05）低于对照组。说明山羊精子获能的最佳肝素浓度为50μg/mL。2、肝素作用时间（0, 10, 20, 30, 45, 60 和120 min）的延长,获能精子比例逐渐提高。其中,肝素处理45～120 min各组的获能精子比例差异不显著（P>0.05）,处理120 min组的精子活力和质膜完整率显著低于其它各组。说明50μg/mL肝素处理精子获能的最佳时间是45～60 min。3、在42℃和38.5℃下处理时,获能精子比例显著高于15℃和37℃,但42℃处理后精子活力和顶体完整率显著低于其它温度。因此,385℃为山羊精子获能的最佳温度。4、与输卵管上皮细胞共培养获能精子比例显著高于对照组和卵丘细胞组,但精子活力、质膜完整率和顶体完整率差异不显著。输卵管上皮组的受精率（91.3％）和卵裂率（72.2％）显著高于对照组（81.2％,65.0％）。说明与输卵管上皮细胞共培养能显著提高肝素处理山羊精子体外获能的效果。     

Heparin and dermatan sulphate induced capacitation of frozen-thawed bull spermatozoa measured by merocyanine-540

Glycosaminoglycans (GAGs) are present in the oviduct in which the major part of sperm capacitation occurs. In this study we have tested how capacitation of frozen-thawed bull spermatozoa is effected by exposure to different GAGs detectable or possibly present in oviductal fluid; i.e. heparin, hyaluronan, heparan sulphate, dermatan sulphate and chondroitin sulphate. Following exposure of different duration, the spermatozoa were stained with either Chlortetracycline (CTC) or merocyanine-540 and evaluated with epifluorescent light microscopy or flow cytometry, respectively. Heparin elicited a significant increase in the number of alive, capacitated spermatozoa, either expressed as higher merocyanine-540 fluorescence (p < 0.0001) or as B-pattern (p = 0.0021) in the CTC assay, during 4 h of incubation. When comparing the different GAG treatments one by one to the negative control in the flow cytometric study, only heparin and dermatan sulphate were significant (p < 0.0001) higher than the control at 0-30 min of incubation. Duration of incubation did not affect the proportion of capacitated spermatozoa when measured as merocyanine-540 fluorescence or CTC B-pattern, but the length of the incubation did affect the number of dead (Yo-PRO 1 positive) spermatozoa (p < 0.0001). Exposure to zona pellucida proteins significantly increased the proportion of acrosome reacted spermatozoa (p = 0.016). Both heparin and dermatan sulphate induce capacitation of frozen-thawed bull spermatozoa in vitro.     

In vitro induction of acrosome reactions in stallion spermatozoa by heparin and A23187

The ability of the glycosaminoglycan, heparin, and the calcium ionophore, A23187, to induce acrosome reaction in equine spermatozoa was assessed using semen from 3 warmblood stallions of known high fertility. After collection of semen, the spermatozoa were washed and incubated in vitro with heparin or A23187. Incubation periods were 0, 4, 6 or 8 h with 0, 1, 10 or 100 microg/ml heparin or 0, 10, 30 or 60 min with 0, 0.01, 0.1, 1 or 10 microM A23187, respectively. Acrosome reactions were determined by staining the spermatozoa with naphthol yellow S plus erythrosin B, and sperm viability was assessed by eosin B-nigrosin staining. Both stains were evaluated under bright-field illumination at x 1000 magnification. Maximal percentages of acrosome reactions were found to occur after incubation for 4 h with 100 microg/ml heparin (71.8 +/- 3.5 % acrosome-reacted spermatozoa compared with 18.7 +/- 1.1 % in control spermatozoa; P < 0.001) or with either 1 or 10 microM A23187 for 60 min (44.0 +/- 6.2 and 45.3 +/- 5.0 % acrosome reacted spermatozoa, respectively, compared with 17.8 +/- 1.5 % in the controls, both P < 0.01). Maximal responses to these conditions varied significantly between stallions (P < 0.01). These results indicate that acrosome reaction can be successfully induced in vitro in stallion spermatozoa with both heparin and A23187, a possible basis for the laboratory prediction of fertility in this species.     

Different functional states of ram spermatozoa analysed by partition in an aqueous two-phase system

The surface of spermatozoa plays a critical role in many stages involved in fertilisation. The plasma membrane undergoes important alterations in the male and female reproductive tract, which result in the ability of spermatozoa to fertilise eggs. One of these membrane modifications is sperm capacitation, a process by which sperm interacts with the zona pellucida receptors leading to the acrosome reaction. It has been proposed that the freezing process induces capacitation-like changes to spermatozoa, and that this premature capacitation could explain the reduction in longevity and fertilising capacity of cryopreserved mammalian spermatozoa. Our research focused on the relationship between membrane alterations occurring throughout freezing-thawing and the processes of capacitation and acrosome reaction. We used centrifugal countercurrent distribution (CCCD) analysis to compare the partition behaviour of ram spermatozoa that was either subjected to cold-shock or frozen-thawed with capacitated and acrosome reacted samples. In addition, the effect of the induced acrosome reaction on membrane integrity of ram spermatozoa was studied using biochemical markers and electron microscopy scanning. The CCCD analysis revealed important similarities between the surface characteristics of capacitated and cold-shocked sperm as well as between acrosome-reacted and frozen-thawed sperm. Cold-shocked and capacitated sperm showed an increased cell affinity for the lower dextran-rich phase as well as a decreased heterogeneity. Likewise, the induction of the acrosome reaction resulted in a loss of viability and an important decrease in cell surface heterogeneity compared to the untreated-control sample. Similar surface changes were found when semen samples were frozen with either Fiser or milk-yolk extender. These results confirm those obtained for membrane integrity by fluorescence markers. Thus, the high cell viability value found in the control sample (74.5%) was greatly decreased after cold-shock (22.2%), cryopreservation (26.38% Fiser medium, 24.8% milk-yolk medium) and acrosome reaction (6.6%), although it was preserved after inducing capacitation (46.7%). The study using electron microscopy scanning revealed dramatic structural alterations provoked by the induction of the acrosome reaction.     

Calcium channel antagonists modulate the acrosome reaction but not capacitation in mouse spermatozoa

Mouse spermatozoa require micromolar concentrations of calcium for capacitation but millimolar levels to initiate an acrosome reaction. Sperm suspensions were capacitated by incubation for 120 min in modified Tyrode's medium containing 90 microM-CaCl2 and then verapamil (0.5-50 microM) or nifedipine (0.1-100 nM), drugs shown to inhibit voltage-sensitive calcium channels in other cell types, was added before the introduction of 1.80 mM-CaCl2. Verapamil at 5-50 microM and nifedipine at 1-100 nM significantly inhibited the calcium-stimulated acrosome reaction response, relative to the drug-free control samples. The possibility that these compounds might inhibit calcium entry during capacitation was examined by incubating suspensions for 120 min in medium containing 90 microM-CaCl2 plus either 5 microM-verapamil or 1 nM-nifedipine, diluting to reduce drug concentration to one-tenth and then adding 1.80 mM-CaCl2. The considerable acrosome reaction response obtained indicated that spermatozoa had undergone capacitation and were able to respond to calcium, despite the continuous presence of calcium channel antagonist at a concentration able to inhibit the response at the end of capacitation. In-vitro fertilization studies indicated that both drugs significantly decreased ability of the spermatozoa to fertilize eggs, consistent with acrosome reaction data. However, results indicated that 50 microM-verapamil was able to induce initial stages of egg activation and thus prevent sperm-egg fusion in zona-intact eggs. The addition of verapamil or nifedipine to suspensions capacitated for 120 min in 1.80 mM-CaCl2 significantly potentiated the acrosome reaction response, compared with drug-free controls. Similar treatment of suspensions incubated for only 30 min, and hence only partly capacitated, failed to evoke a response. The potentiation of the acrosome reaction response by verapamil in cells capacitated in high calcium may indicate either retention, due to the action of antagonists, of released intracellular calcium stores, resulting in intracellular calcium concentrations above the threshold required to trigger the acrosome reaction or action of an activated guanine nucleotide binding (G) protein to produce an agonistic rather than an antagonistic response. These results suggest that calcium channels similar to those termed voltage-sensitive in other cell types may exist and play an important role in calcium movements at the end of capacitation, but not during earlier phases of capacitation.     

Chlortetracycline staining patterns of frozen-thawed bull spermatozoa treated with beta-cyclodextrins, dibutyryl cAMP and progesterone

Efforts to achieve complete chemical definition of media used for in vitro capacitation of bovine spermatozoa including removal of heparin purified from porcine intestinal mucosa are presented. Fluorescent staining with chlortetracycline (CTC), known to reflect changes coincident with sperm capacitation in certain species, was studied following treatments of frozen-thawed bull spermatozoa with beta-cyclodextrins, dibutyryl cAMP (dbcAMP) and progesterone in comparison with heparin. The CTC staining patterns (F, B and AR) were confirmed to correlate with known conditions that effectively prepare cryopreserved bull spermatozoa for fertilisation in vitro. In the absence of glucose, the routinely employed heparin-containing capacitating medium caused an increase in spermatozoa displaying the AR pattern. Both progesterone (100 microM) and dbcAMP (0.01-0.1 mM) were able to increase the proportion of B pattern stained sperm cells more than after exposure to control (mDM) conditions without a significant reduction in motility. Exposure to either dbcAMP or beta-cyclodextrins was accompanied by an increase in proportions of spermatozoa displaying the AR pattern over those seen in controls. Exposure to beta-cyclodextrins did not increase the proportion of B pattern stained spermatozoa. Comparison of spermatozoa from two bulls revealed differential responses of spermatozoa from different males to treatments with heparin and progesterone. In vitro fertilisation results demonstrated that previously cryopreserved bull spermatozoa could be capacitated in chemically defined conditions devoid of heparin or other biological components.     

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.     

Capacitation of fresh bovine spermatozoa on bovine epithelial oviduct cell monolayers

Capacitation of fresh bovine spermatozoa on bovine epithelial oviduct cells was assessed1) by the ability of spermatozoa to fertilize bovine oocytes in vitro and2) by exposure to lysophosphatidylcholine (LC) to induce acrosome reaction in the capacitated spermatozoa. When spermatozoa were incubated on bovine epithelial oviduct cells in B2 medium supplemented with 10% estrous cow serum (ECS) and then exposed to 100 mug/ml LC for 15 minutes, the percentage of acrosome reaction induced increased in a time-dependent course, reaching a plateau after 6 hours. Inversely, when spermatozoa were incubated in B2 + 10% ECS alone, the percentage of acrosome reaction induced by LC didn't fluctuate. The in vitro fertilization rate obtained after incubation of spermatozoa during 6 hours on bovine epithelial oviduct cells in B2 + 10% ECS medium was on average 75% for both the preovulated and ovulated oocytes. The developmental stages observed 18 hours after male and female gamete co-culture were similar to those obtained after in vivo fertilization. This study suggests that incubation of fresh bovine spermatozoa on bovine oviduct epithelial cell monolayers during 6 hours is an efficient method, and one that is close to in vivo capacitation.