Hamster sperm Na+, K+-adenosine triphosphatase: increased activity during capacitation in vitro and its relationship to cyclic nucleotides

These in vitro studies of golden hamster sperm were undertaken to determine whether: Na+, K+-adenosine triphosphatase (ATPase) activity is required for capacitation; Na+, K+-ATPase activity is altered during capacitation; and cyclic nucleotides can control this enzyme activity. Hamster sperm were incubated in a medium in which capacitation occurred in an asynchronous manner and in which acrosome reactions began to occur after approximately 3.5 h of incubation. Inhibition of the hamster sperm acrosome reaction by the Na+, K+-ATPase inhibitor ouabain (1 microM) added at Time (T) = 2 or T = 3 h could be fully reversed by the addition of the ionophore nigericin (0.1 microM) at T = 3.5 h. However, when ouabain was added at T = 0 or T = 1 h, similar nigericin addition could not completely reverse the inhibition. Na+, K+-ATPase activity of hamster sperm increased by 2 h of incubation (compared to that measured initially after 15 min) and this activity remained elevated at 3.5 h. Addition of either monobutyryl cyclic adenosine 3':5'-monophosphate ( BtcAMP ) (12.9 microM) or monobutyryl cyclic guanosine monophosphate ( BtcGMP ) (10.5 microM), or the phosphodiesterase inhibitor SQ20009 (10 microM) at 2 h produced a stimulation of acrosome reactions at 4 and 5 h. However, while BtcGMP and SQ 20009 also induced a further increase in Na+, K+-ATPase activity measured at 3.5 h, BtcAMP had no effect. Intracellular cAMP and cGMP levels measured showed cAMP increased by 2 h and remained elevated when measured at 3.5 h, while cGMP could not be consistently detected at 15 min, 2 h or 3.5 h. However, assays of high numbers of uncapacitated sperm did detect a low level of cGMP. These results suggest that Na+, K+-ATPase activity increases in and is essential for early capacitation [and thereby eventually for the acrosome reaction (AR)] of hamster sperm and that the increase in Na+, K+-ATPase activity occurring during capacitation is probably mediated by intracellular cGMP but not cAMP, although both cyclic nucleotides stimulate the hamster sperm AR.     

Inhibition of capacitation-associated tyrosine phosphorylation signaling in rat sperm by epididymal protein Crisp-1

Ejaculated sperm are unable to fertilize an egg until they undergo capacitation. Capacitation results in the acquisition of hyperactivated motility, changes in the properties of the plasma membrane, including changes in proteins and glycoproteins, and acquisition of the ability to undergo the acrosome reaction. In all mammalian species examined, capacitation requires removal of cholesterol from the plasma membrane and the presence of extracellular Ca2+ and HCO3-. We designed experiments to elucidate the conditions required for in vitro capacitation of rat spermatozoa and the effects of Crisp-1, an epididymal secretory protein, on capacitation. Protein tyrosine phosphorylation, a hallmark of capacitation in sperm of other species, occurs during 5 h of in vitro incubation, and this phosphorylation is dependent upon HCO3-, Ca2+, and the removal of cholesterol from the membrane. Crisp-1, which is added to the sperm surface in the epididymis in vivo, is lost during capacitation, and addition of exogenous Crisp-1 to the incubation medium inhibits tyrosine phosphorylation in a dose-dependent manner, thus inhibiting capacitation and ultimately the acrosome reaction. Inhibition of capacitation by Crisp-1 occurs upstream of the production of cAMP by the sperm.     

Stimulation of hamster sperm capacitation and acrosome reaction in vitro by glucose and lactate and inhibition by the glycolytic inhibitor α-chlorohydrin

Studies were made of the effects of D(+)-glucose, L-lactate and pyruvate on in vitro capacitation and acrosome reactions (AR) of hamster sperm using a more “defined” medium that that used in previous similar studies. In the absence of glucose or lactate, sperm underwent very few AR and activation (whiplash-like motility characteristic of capacitated hamster sperm) was reduced compared to those events in sperm preincubated in the presence of glucose plus lactate plus pyruvate. Glucose and pyruvate supported more AR than glucose alone, but less than glucose, lactate, and pyruvate. The glycolytic inhibitor α-chlorohydrin (10 μm) inhibited AR by 50% and reduced activation by less. When glucose was added to sperm incubated 2 hr with pyruvate and lactate, the number of AR observed after 4 hr was the same as that obtained when glucose was present throughout the incubation. When glucose was added after 3.5 hr, AR were delayed for 1 hr and lower numbers of sperm underwent AR. In the presence of lactate and pyruvate, 0.38 mM glucose was able to support activation and AR as well as 3.24 mM glucose. These results indicate that exogenous glucose and lactate are necessary for in vitro capacitation and AR of hamster sperm; only low levels of exogenous glucose are required; exogenous glucose is not required during the first 2 hr of capacitation; and glycolytic activity is necessary for capacitation and the AR.     

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.     

Effect of reactive oxygen species on capacitation and associated protein tyrosine phosphorylation in buffalo (Bubalus bubalis) spermatozoa

In the present study, the effect of two particular reactive oxygen species (ROS), superoxide anion (O(2)(-)) and hydrogen peroxide (H(2)O(2)) on buffalo (Bubalus bubalis) sperm capacitation and associated protein tyrosine phosphorylation was studied. Ejaculated buffalo spermatozoa were suspended in sp-TALP medium at 50 x 10(6)/mL and incubated at 38.5 degrees C for 6h with or without heparin (10(g/mL; a positive control), or xanthine (X; 0.5mM)-xanthine oxidase (XO; 0.05 U/mL)-catalase (C; 2100 U/mL) system that generates O(2)(-) or NADPH (5mM) that stimulates the endogenous O(2)(-) production or H(2)O(2) (50 microM). The specific effect of O(2)(-), H(2)O(2) and NADPH on buffalo sperm capacitation and protein tyrosine phosphorylation was assessed by the addition of superoxide dismutase (SOD), catalase and diphenylene iodonium (DPI), respectively, to the incubation medium. Each of X+XO+C system, NADPH and H(2)O(2) induced a significantly higher percentage (P<0.05) of capacitation in buffalo spermatozoa compared to control. However, DPI inhibited this NADPH-induced capacitation and protein tyrosine phosphorylation and suggested for existence of an oxidase in buffalo spermatozoa. Using immunoblotting technique, at least seven tyrosine-phosphorylated proteins (20, 32, 38, 45, 49, 78 and 95 kDa) were detected in capacitated buffalo spermatozoa. Out of these, the tyrosine phosphorylation of p95 was induced extensively by both O(2)(-) as well as exogenous source of H(2)O(2) and using specific activators and inhibitors of signaling pathways, it was found this induction was regulated through a cAMP-dependent PKA pathway. Further, immunofluorescent localization study revealed that these ROS-induced tyrosine-phosphorylated proteins are mostly distributed in the midpiece and principal piece regions of the flagellum of capacitated spermatozoa and suggested for increased molecular activity in flagellum during capacitation. Thus, the study revealed that both O(2)(-) and H(2)O(2) promote capacitation and associated protein tyrosine phosphorylation in buffalo spermatozoa and unlike human and bovine, a different subset of sperm proteins were tyrosine-phosphorylated during heparin- and ROS-induced capacitation and regulation of these ROS-induced processes were mediated through a cAMP/PKA signaling pathway.     

Calcium requirement and increased association with bovine sperm during capacitation by heparin

The requirement for external Ca+2 during capacitation of ejaculated bovine sperm with heparin and changes in sperm-associated 45Ca+2 during capacitation were investigated in vitro. Sperm capacitation was evaluated by ability to undergo an acrosome reaction (AR) upon exposure to lysophosphatidylcholine. The percentage of sperm which were capacitated during a 4 h incubation with heparin increased exponentially with increased exposure time to 2 mM Ca+2. When sperm were incubated with or without heparin in the presence of 45CaCl2, there was no difference in the amount of 45Ca+2 associated with sperm initially or at 1 h of incubation. Incubation with heparin resulted in a greater amount of sperm-associated 45Ca+2 at 2, 3, and 4 h as compared to sperm incubated without heparin. The amount of 45Ca+2 associated with sperm during capacitation was unaffected by washing with 2 mM EGTA-5 mM LaCl3. Glucose (5 mM) inhibited the effects of heparin on sperm-associated 45Ca+2 and on capacitation. The inhibitory effects of glucose could be overridden by 8-bromo-cAMP. The results suggest that the requirement for external Ca+2 during capacitation with heparin may be related to an increased association of external Ca+2 with sperm.     

Evaluation of in vitro capacitation of stallion spermatozoa

The primary aim of this study was to establish a flow cytometric technique for determining the capacitation status of stallion spermatozoa. To this end, a flow cytometric technique that demonstrates changes in plasma membrane fluidity; namely, merocyanine 540 staining, was compared with the more conventional Ca(2+)-dependent fluorescence microscopic technique, chlortetracycline (CTC) staining, for assessing capacitation status. In addition, the effect of bicarbonate/CO(2) on the progress of capacitation and the acrosome reaction (AR) and on temporal changes in sperm motility, with particular regard to hyperactivation, was analyzed. For the study, fresh semen was washed and then incubated for 5 h in bicarbonate-containing or bicarbonate-free medium, with or without Ca(2+) ionophore to induce the AR, and at intervals during incubation aliquots were taken and analyzed for capacitation and acrosome status. The AR was assessed using both the CTC and fluorescein isothiocyanate-peanut agglutinin (FITC-PNA) staining techniques with similar results. In brief, it was found that merocyanine 540 detects capacitation-related changes much earlier than CTC does (0.5 h versus approximately 3 h), and that flow cytometry for evaluation of capacitation and AR was a quicker (10 sec per sample) and more accurate (10,000 cells counted) technique than fluorescence microscopy. Furthermore, it was observed that Ca(2+) ionophore could not induce the AR in the absence of bicarbonate, but that the ionophore synergized the bicarbonate-mediated induction of the AR as detected by CTC (although it was not significant when evaluated using FITC-PNA). The percentage of hyperactive sperm in each sample was not affected by time of incubation under the experimental conditions studied. In conclusion, merocyanine 540 staining is a better method than CTC staining for evaluating the early events of capacitation for stallion spermatozoa incubated in vitro. Furthermore, bicarbonate sperm activation clearly plays a vital role in the induction of the AR in stallion spermatozoa.     

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.     

Release of DEFB126 from macaque sperm and completion of capacitation are triggered by conditions that simulate periovulatory oviductal fluid

Capacitation of macaque sperm in vitro has been achieved efficiently only with the addition of both cyclic nucleotides and methylxanthines. The use of these exogenous sperm activators clouds an understanding of the normal mechanisms underlying capacitation and may slow early embryo development following in vitro fertilization (IVF). We demonstrate that culture medium which simulates periovulatory oviductal fluid with respect to bicarbonate (HCO(3)(-)) and glucose concentration induces capacitation in a high percentage of macaque sperm as determined by the ability of sperm to undergo both the release of coating protein DEFB126 and the zona pellucida-induced acrosome reaction (AR). Few sperm were able to undergo the AR following 6 hr incubation in medium containing either 35 mM HCO(3)(-) (approximately 7.2 pH) or 90 mM HCO(3)(-) (approximately pH 7.8) with 5 mM glucose. When glucose concentration was lowered to 0.5 mM to match levels reported for women at midcycle, the AR rate increased significantly in sperm incubated in both levels of HCO(3)(-), indicating that glucose interferes with sperm responsiveness to increasing HCO(3)(-) concentration observed in the primate oviduct during ovulation. Even greater synchronization of capacitation could be achieved with nonphysiologic extremes of alkalinity or energy substrate deprivation. In the latter case, sperm achieved high rates of IVF. A shift in pH from 7.2 to 7.8 in a HEPES-buffered medium was sufficient to remove DEFB126 from the surface of most sperm after only 3 hr. The loss of DEFB126 from sperm under periovulaory fluid conditions has implications for the timing of release of sperm from the oviductal reservoir.     

Proper phosphorylation of septin 12 regulates septin 4 and soluble adenylyl cyclase expression to induce sperm capacitation

Septin-based ring complexes maintain the sperm annulus. Defective annular structures are observed in the sperm of Sept12- and Sept4-null mice. In addition, sperm capacitation, a process required for proper fertilization, is inhibited in Sept4-null mice, implying that the sperm annulus might play a role in controlling sperm capacitation. Hence, we analyzed sperm capacitation of sperm obtained from SEPT12 Ser196 phosphomimetic (S196E), phosphorylation-deficient (S196A), and SEPT4-depleted mutant mice. Capacitation was reduced in the sperm of both the Sept12 S196E- and Sept12 S196A-knock-in mice. The protein levels of septins, namely, SEPT4 and SEPT12, were upregulated, and these proteins were concentrated in the sperm annulus during capacitation. Importantly, the expression of soluble adenylyl cyclase (sAC), a key enzyme that initiates capacitation, was upregulated, and sAC was recruited to the sperm annulus following capacitation stimulation. We further found that SEPT12, SEPT4, and sAC formed a complex and colocalized to the sperm annulus. Additionally, sAC expression was reduced and disappeared in the annulus of the SEPT12 S196E- and S196A-mutant mouse sperm. In the sperm of the SEPT4-knockout mice, sAC did not localize to the annulus. Thus, our data demonstrate that SEPT12 phosphorylation status and SEPT4 activity jointly regulate sAC protein levels and annular localization to induce sperm capacitation.     

The effects of products and inhibitors of arachidonic acid metabolism on the hamster sperm acrosome reaction

The mammalian sperm acrosome reaction (AR) is a fusion and fenestration of sperm head membranes which is essential for fertilization. Our earlier work demonstrated that arachidonic acid could stimulate the AR 15 min after addition to hamster sperm capacitated by incubation for 4.5 h. The present study was undertaken to determine whether inhibitors of arachidonic acid metabolism could affect the stimulation of the AR by arachidonic acid and whether products of its metabolism could stimulate the AR. Phenidone or nordihydroguaiaretic acid, inhibitors of both the cyclo-oxygenase and lipoxygenase pathways of arachidonic acid metabolism, and docosahexaenoic acid, a cyclo-oxygenase pathway inhibitor, inhibited the AR induced by arachidonic acid. PGE2, a product of the cyclo-oxygenase pathway of arachidonic acid metabolism and 5- or 12-hydroxyeicosatetraenoic acid (HETEs) products of the lipoxygenase pathway, stimulated the AR when added to sperm capacitated by incubation for 4.5 h. Prostaglandins not derived from arachidonic were also tested: PGE1 stimulated the AR, but PGF1 alpha and PGA2 did not. We suggest that arachidonic acid metabolites produced by the sperm and by the female reproductive tract are important for the mammalian sperm AR.     

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.     

Reactive oxygen species promote tyrosine phosphorylation and capacitation in equine spermatozoa

The objective of this study was to examine the influence of reactive oxygen species (ROS) on equine sperm capacitation. Motile equine spermatozoa were separated on a discontinuous Percoll gradient, resuspended at 10 x 10(6)ml in Tyrode's medium supplemented with BSA (0.5%) and polyvinyl alcohol (0.5%) and incubated at 39 degrees C for 2h with or without the xanthine (X; 0.1mM)-xanthine oxidase (XO; 0.01 U/ml) system or NADPH (0.25 mM). The importance of hydrogen peroxide or superoxide for capacitation was determined by the addition of catalase (CAT; 150 U/ml) or superoxide dismutase (SOD; 150 U/ml), respectively. Following incubation, acrosomal exocytosis was induced by a 5 min incubation at 39 degrees C with progesterone (3.18 microM), and sperm viability and acrosomal integrity were then determined by staining with Hoechst 33258 and fluoroisothiocyanate-conjugated Pisum sativum agglutin. To examine tyrosine phosphorylation, treatments were subjected to sodium dodecyl sulfate-polyacrylaminde gel electrophoresis (SDS-PAGE) followed by Western blot analysis with the anti-phosphotyrosine antibody (alpha-PY; clone 4G10). Capacitation with the X-XO system or NADPH led to a significant (P<0.0001) increase in live acrosome-reacted spermatozoa compared to controls. The addition of CAT or SOD prevented the increase in live acrosome-reacted spermatozoa associated with X-XO treatment. Incubation with the X-XO system was also associated with a significant (P<0.005) increase in tyrosine phosphorylation when compared to controls, which could be prevented by the addition of CAT but not SOD. This study indicates that ROS can promote equine sperm capacitation and tyrosine phosphorylation, suggesting a physiological role for ROS generation by equine spermatozoa.     

Capacitation of bovine spermatozoa by oviduct fluid

Oviduct fluid collected from chronically cannulated oviducts of heifers was evaluated for its effect on capacitation of bovine sperm in vitro. Capacitation was determined by the ability of sperm to fertilize bovine oocytes in vitro and to undergo an acrosome reaction (AR) upon exposure to lysophosphatidylcholine (LC). After incubation of sperm with 0-25% (v/v) estrual oviduct fluid (collected +/- 1 day from estrus) for 4 h, addition of LC (100 micrograms/ml) for an additional 0.25 h resulted in an increasing percentage of acrosome-reacted sperm as the concentration of oviduct fluid increased. Sperm incubated 4 h with 25% estrual oviduct fluid fertilized more oocytes than sperm incubated in medium alone (p less than 0.05) but was not different from sperm incubated with 10 micrograms/ml heparin (p greater than 0.05). Glucose inhibited the ability of LC to induce ARs in sperm incubated 4 h with heparin or estrual oviduct fluid. Incubation of sperm with 25% oviduct fluid collected at various days over the estrous cycle demonstrated that peak capacitating activity was found at estrus but was also present +/- 1 day from estrus. The active capacitating factor in oviduct fluid was found to be heat stable. In addition, when extraction procedures were applied in sequential order, oviduct fluid capacitating activity was resistant to protease digestion, precipitable by ethanol, size-excluded by Sephadex G-25, and destroyed by nitrous acid. These results suggest that a heparin-like glycosaminoglycan from the oviduct is a potential in vivo capacitating agent in the bovine.     

In vitro Capacitation of Ejaculated Rabbit Spermatozoa

Prior to fertilization mammalian spermatozoa undergo physiological changes in the female reproductive tract. These changes are collectively known as capacitation. In essence capacitation is a further differentiation that the sperm cell must acquire beyond the maturational changes that it undergoes in the epididymis. Although capacitation in vitro has been easily achieved in rodents, its accomplishment in the rabbit is inconsistent and difficult. We report here successful in vitro capacitation of ejaculated rabbit sperm, assessed by in vitro and in vivo fertilization of rabbit ova. Sperm were used from pooled ejaculates collected from bucks of proven fertility since sperm collected from individual bucks resulted in significant differences in fertilization levels. Conditions favoring in vitro capacitation were: (1) extended incubation time of 12 h, (2) addition of 20% heated rabbit serum to incubation medium, and (3) an atmosphere of 5% CO2, 8% O2, and 87% N2 during incubation. In vitro capacitation of sperm under these conditions resulted in 67% fertilization compared to 89% for control sperm capacitated for 13 h in the uterus.     

Capacitation of bovine sperm by heparin: inhibitory effect of glucose and role of intracellular pH

Bovine sperm incubated with heparin for 7.5-8.5 h underwent an acrosome reaction in the absence but not the presence of glucose (5 mM). When sperm were incubated under capacitating conditions with heparin for 4 h, glucose inhibited sperm penetration of oocytes (p less than 0.01) and lysophosphatidylcholine (LC) induced acrosome reactions. Addition of glucose for the last 0.25 h of a 4.25-h incubation with heparin had no effect on ability of sperm to acrosome-react in response to LC. Nonmetabolizable sugars 3-O-methyl glucose, 2-deoxyglucose, sucrose, and sorbitol did not inhibit capacitation as judged by sperm sensitivity to LC or fertilization (p greater than 0.05), but capacitation was inhibited by the glycolyzable substrates glucose, mannose, and fructose (p less than 0.05). The glycolytic inhibitor, fluoride, reversed glucose inhibition of capacitation in a dose-dependent manner similar to its effect on glucose uptake by sperm. Extracellular pH declined from 7.4 to 7.2 during a 4-h incubation of sperm with heparin and glucose. The decline of extracellular pH during sperm incubation with glucose did not affect capacitation, since only an extracellular pH below 7.02 inhibited capacitation. The intracellular pH (pHi) of sperm increased 0.40 units over a 5-h incubation under capacitating conditions. The change in pHi was inhibited by glucose. Incubation of sperm with heparin and glucose for 12 h resulted in capacitated sperm as judged by both LC sensitivity and fertilizing ability. These studies demonstrate that glycolyzable substrates delay capacitation of bovine sperm and suggest the effect is in delaying an alkalinization of pHi.     

Endogenous redox activity in mouse spermatozoa and its role in regulating the tyrosine phosphorylation events associated with sperm capacitation

We investigated the role of endogenous redox activity in regulating the signal transduction pathway leading to tyrosine phosphorylation in mouse spermatozoa. Endogenous redox activity was monitored using a luminol-peroxidase chemiluminescent probe. Chemiluminescence increased in spermatozoa that were actively undergoing cAMP-mediated tyrosine phosphorylation events associated with capacitation and was inhibited in a dose-dependent manner by addition of catalase or diphenylene iodonium, both of which also inhibited tyrosine phosphorylation within the cell at points downstream of cAMP. Excluding bicarbonate from the incubation medium reduced the redox activity of sperm by 80-90% and dramatically reduced tyrosine phosphorylation. This study provides the first evidence that tyrosine phosphorylation associated with capacitation in mouse spermatozoa is redox regulated by a flavinoid-containing enzyme involving mediation by hydrogen peroxide. Bicarbonate regulated the redox activity of mouse spermatozoa, and this regulation may contribute to the impact of this anion on tyrosine phosphorylation during capacitation of mouse spermatozoa.     

调控精子获能的相关因素

获能是精子发生顶体反应以及与卵子结合之前所必需的生理过程,目前精子获能的机制得到初步阐明,获能伴随着质膜重组,离子通道的调节,胆固醇的流失以及许多蛋白磷酸化状态的改变.获能同时受到内在和外在因子的调节,其中胆固醇、HCO3-、Ca2+以及蛋白磷酸化在精子获能过程中发挥着重要作用.     

Oviduct fluid and heparin induce similar surface changes in bovine sperm during capacitation: A flow cytometric study using lectins

Eight different lectins conjugated to fluorescein isothiocyanate (FITC) were used to screen for sperm plasma membrane changes during in vitro capacitation of bovine sperm. Analysis of lectin binding to sperm was done using flow cytometry. Of the eight lectins, only Triticum vulgaris (wheat germ agglutinin, WGA) binding to sperm was altered with capacitation. Capacitation of bovine sperm by heparin was found to decrease WGA binding to sperm by 78% (P < 0.05). The effect of capacitation by oviduct fluid was next compared with capacitation by heparin for changes in WGA binding to sperm. The effect of inhibiting capacitation with glucose on WGA binding was also determined. WGA-bound sperm were detected by flow cytometry as being present in two fluorescence peaks defined as low fluorescence (A) or high fluorescence (B) intensity. The percentage of sperm in peak A was greater for heparin and oviduct fluid-treated sperm compared to sperm incubated under noncapacitating conditions in only culture medium (P < 0.001). Capacitation with either heparin or oviduct fluid was inhibited by glucose as assessed by the ability of lysophosphatidylcholine (100 μg/ml) to induce acrosome reactions. Glucose also reduced the percentage of sperm in peak A for both heparin- and oviduct fluid-treated sperm (P < 0.01). We conclude that heparin or oviduct fluid induced changes on the sperm plasma membrane during capacitation. Binding sites for WGA on sperm were either structurally altered or lost during capacitation. © 1996 Wiley-Liss, Inc.     

Isolation and proteomic analysis of mouse sperm detergent-resistant membrane fractions: evidence for dissociation of lipid rafts during capacitation

Mammalian sperm acquire fertilization capacity after residing in the female tract during a process known as capacitation. The present study examined whether cholesterol efflux during capacitation alters the biophysical properties of the sperm plasma membrane by potentially reducing the extent of lipid raft domains as analyzed by the isolation of detergent-resistant membrane fractions using sucrose gradients. In addition, this work investigated whether dissociation of the detergent-resistant membrane fraction during capacitation alters resident sperm raft proteins. Mouse sperm proteins associated with such fractions were studied by silver staining, tandem mass spectrometry, and Western blot analysis. Caveolin 1 was identified in sperm lipid rafts in multimeric states, including a high-molecular-weight oligomer that is sensitive to degradation under reducing conditions at high pH. Capacitation resulted in reduction of the light buoyant-density, detergent-resistant membrane fraction and decreased the array of proteins isolated within this fraction, including loss of the high-molecular-weight caveolin 1 oligomers. Proteomic analysis of sperm proteins isolated in the light buoyant-density fraction identified several proteins, including hexokinase 1, testis serine proteases 1 and 2, TEX101, hyaluronidase (PH20, SPAM1), facilitated glucose transporter 3, lactate dehydrogenase A, carbonic anhydrase IV, IZUMO, pantophysin, basigin, and cysteine-rich inhibitory secretory protein 1. Capacitation also resulted in a significant reduction of sperm labeling by the fluorescent lipid-analog DiIC16, indicating that capacitation alters the liquid-ordered domains in the sperm plasma membrane. The observations that capacitation alters the protein composition of the detergent-resistant membrane fractions is consistent with the hypothesis that cholesterol efflux during capacitation dissociates lipid raft constituents, initiating signaling events that lead to sperm capacitation.