Bicarbonate: carbon-dioxide regulation of sperm capacitation, hyperactivated motility, and acrosome reactions

The bicarbonate: CO2 (HCO3-:CO2) concentration dependencies of hamster sperm motility, spontaneous acrosome reactions, and zona penetration (used to assay the zona-induced acrosome reaction) were examined. A cross-over experimental design was used to segregate effects on early stages of capacitation, spanning the first 5 h of incubation, from those on acrosome reactions and zona penetration during the last 1 h. After 5 h, HCO3-:CO2 concentrations were increased, decreased, or kept the same for 1 h. Compared to no HCO3-:CO2, as little as 2.9 mM: 0.6% HCO3-:CO2 increased the sperm motility index (MI) by 2.7-3.6 times. When HCO3-:CO2 was continuously present, both progressive and hyperactivated motility were stimulated by HCO3-:CO2 in a dose-dependent manner by 3-4 h, well before completion of capacitation. Stimulation of acrosome reactions or zona penetration, by addition of HCO3-:CO2 to sperm for 1 h late in capacitation, depended mainly on levels of HCO3-:CO2 present earlier in capacitation. When 25 mM: 5% HCO3-:CO2 was added only at 5 h, responses were significantly lower than with sperm treated continuously with the same concentration of HCO3-:CO2, being 2.5 times lower for MI, 2 times lower for acrosome reactions, and 6.3 times lower for zona penetration. In contrast, decreasing HCO3-:CO2 to suboptimal levels after 5 h did not decrease any 6-h sperm responses significantly. The average maximal and one-half maximal preincubation HCO3- concentrations for all responses were 34.2 +/- 1.0 and 9.2 +/- 0.3 mM, respectively. Zona penetration and hyperactivation were highly correlated.(ABSTRACT TRUNCATED AT 250 WORDS)     

Xenoestrogenic compounds promote capacitation and an acrosome reaction in porcine sperm

There is growing evidence that endocrine disruptors bind to hormone receptors; since these receptors are present on the sperm membrane, sperm are potentially a useful model for examining estrogenic activities of endocrine disruptors. The objective of the present study was to compare the effects of two xenoestrogenic compounds (genistein and 4-tert-octylphenol) to those of two steroids (estrogen and progesterone) and heparin on in vitro capacitation and the acrosome reaction in a porcine sperm model. Porcine sperm were incubated with various concentrations (0.001-100 μM) of each chemical for 15 or 30 min, and then capacitation and the acrosome reaction were assessed using chlortetracycline. Estrogen and progesterone were considerably more potent than the other chemicals in stimulating capacitation. Estrogen stimulated sperm capacitation at all tested concentrations after 15 min of incubation (P < 0.05), whereas progesterone stimulated sperm capacitation at all tested concentrations after 15 and 30 min (P < 0.05). The effect of genistein on sperm capacitation was comparable with that of estrogen, and it was the most potent in stimulating the acrosome reaction. Genistein stimulated the acrosome reaction at all tested concentrations after 30 min (P < 0.05). However, 4-tert-octylphenol had the least effect on capacitation and the acrosome reaction. In summary, since all chemicals studied effectively altered capacitation and the acrosome reaction, it was concluded that porcine sperm could be a useful model for in vitro screening of potential endocrine disruptors. It was noteworthy that concurrent comparisons to steroids increased the ability to determine estrogenic characteristics of the tested chemicals.     

Role of rabbit prostate granules on sperm viability and acrosome reaction evaluated with different methods

In the present study, the role of rabbit seminal granules was observed. Their influence on motility, capacitation and acrosome reaction, as well as the presence of apoptosis and the morphology of rabbit sperm, were compared in different conditions. Ejaculated sperm from five mature New Zealand White rabbit bucks during three series of collections were studied, comparing raw semen, Percoll-selected sperm and Percoll-selected sperm plus prostate granules. We observed sperm motility kinetic traits by computer-assisted sperm analyzer (CASA) analysis in each sample. Acrosome status was evaluated by FITC-labeled Pisum sativum Agglutinin staining and chlortetracycline fluorescence assay, phosphatidylserine translocation was determined by AnnexinV/Propidium iodide assay and sperm morphology was studied using transmission electron microscopy (TEM). All traits were observed after 30 min incubation at 37 °C in 5% CO₂. Data showed that sperm motility and viability markedly improved in the presence of prostate granules, whereas capacitation, acrosome reaction and phosphatidylserine translocation were lowered. TEM confirmed these results. In conclusion, the role of granules was confirmed in synchronizing sperm capacitation and acrosome reaction with egg availability; indeed, rabbit ovulation occurs only 6 to 10 h after mating.     

Evidence suggesting a role for cyclic nucleotides in acrosome reactions of hamster sperm in vitro

There have been conflicting reports concerning the involvement of cyclic nucleotides in sperm capacitation. We have examined the effects of micromolar concentrations of dibutyryl cyclic AMP (Bt2cAMP) and of the phosphodiesterase inhibitors SQ20009 and ICI63,197 on hamster sperm incubated under in vitro capacitating conditions. Washed hamster sperm were incubated in a capacitation media containing bovine serum albumin, and a protein-free "motility-factor" from bovine adrenal cortex. Incubation for 3.5 hours was followed by addition of one of the compounds (0.1-10 microM) or control buffer. At the time of addition and after 30-120 minutes further incubation, sperm were examined by phase contrast microscopy. The final motility was similar to the initial motility (50-70%) and the same in incubation of controls or experimental compounds. Bt2cAMP, SQ20009, and ICI63,197 at these concentrations stimulated acrosome reactions to a statistically significant extent (P less than 0.005) compared to controls. Activation was stimulated to a varying degree by all three experimental compounds. These results suggest a role for cyclic nucleotides in capacitation and the acrosome reaction of hamster sperm.     

Albumin is required to support the acrosome reaction but not capacitation in mouse spermatozoa in vitro

Albumin was required specifically for penetration of the zona pellucida (less than 10% of eggs fertilized in the absence of albumin), but was not required for capacitation. A similar rate of capacitation was observed in the presence of albumin at concentrations ranging from 30 to 1 mg/ml, while a slightly slower rate was observed in the presence of 0.25 and 0.1 mg albumin/ml. In the absence of albumin, capacitation occurred at a rate which lagged behind that of the albumin-incubated counterparts by about 30 min; once capacitated, the addition of albumin promoted rapid sperm penetration. In albumin-free media (+/- the macromolecule PVA), sperm motility was frequently reduced, with fewer cells exhibiting hyperactivated motility, but improvements were observed after introduction of albumin. Acrosome loss was significantly lower in the absence of albumin, but within 5 min of its addition at concentrations ranging from 30 to 0.1 mg/ml to capacitated sperm suspensions, acrosome loss was stimulated and reached levels similar to those seen in control samples. Therefore, albumin can trigger the acrosome reaction in capacitated spermatozoa. It appears to act by assisting in the removal of a surface-associated inhibitory component, the presence of which stabilizes the sperm membranes and inhibits the acrosome reaction.     

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.     

Infertility in a beef bull due to a failure in the capacitation process

The objective of this case report was to identify the cause of apparent idiopathic infertility in a Red Angus (beef) bull. Semen was collected by electroejaculation and submitted to a series of assays, including evaluation of sperm motility by computer-assisted sperm analysis (CASA), sperm morphology and DNA integrity, semen cryopreservation, AI, IVF, induction of the acrosome reaction, and determination of the level of sperm proteins associated with bull fertility potential. Total (92 ± 2%) and progressive (79 ± 4%) sperm motility; sperm concentration (1647 ± 429 × 10⁶ sperm/mL); proportions of morphologically normal sperm (83 ± 6%) and DNA integrity (96 ± 2), and acrosome-intact sperm (64 ± 4%) exceeded minimum acceptable values. Frozen sperm had good total (58.7 ± 6.7%) and progressive (43.9 ± 9.2%) motility immediately after thawing. However, AI of 16 heifers resulted in no pregnancies and blastocyst production rate (following IVF using sperm from this infertile bull) was nearly identical to that produced using dead sperm (a control of parthenogenesis; 2 ± 2 and 2 ± 3%; respectively P < 0.05). Treatment with a calcium ionophore (A23187) failed to induce the acrosome reaction in sperm from the infertile bull (P < 0.05). Evaluation of several proteins associated with the fertility potential of bulls revealed that the level of Binder Sperm Protein-1 (BSP1), known to be associated with the capacitation process, was much greater on sperm from the infertile bull compared to that of his sire. In conclusion, we inferred that the idiopathic infertility in this bull was caused by a failure to complete the capacitation process.     

Minimum and maximum extracellular Ca2+ requirements during mouse sperm capacitation and fertilization in vitro

The minimum and maximum extracellular Ca2+ concentrations required to promote capacitation, the acrosome reaction, hyperactivated motility, zona penetration and gamete fusion in the mouse have been established. The traces of free calcium in Ca2+-deficient medium were shown not to enhance capacitation since the inclusion of EGTA to chelate free ions during a 120 min preincubation failed to alter the kinetics of capacitation from those observed in the absence of EGTA; 1 h after addition of 1.80 mM-Ca2+, both suspensions were highly fertile. Complete capacitation, when suspensions were immediately functional upon the addition of 1.80 mM-Ca2+, required the presence of greater than or equal to 90 microM-Ca2. Considerably higher concentrations were required to initiate optimal sperm responses: acrosome reaction, 900 microM; gamete fusion, 900 microM; hyperactivated motility, 1.80 mM; zona penetration, 1.80 mM. None of these changes was effected when Ca2+ was less than 450 microM. The responses to elevated Ca2+ were dependent on the length of incubation, being initially positive and then negative. A short (30 min) exposure to 3.40 mM-Ca2+ (x 2 the standard) accelerated capacitation, as evidenced by significantly increased acrosome loss, precocious expression of hyperactivated motility and enhanced fertilizing ability when Ca2+ was reduced to 1.80 mM. However, extended (120 min) preincubation irreversibly damaged sperm function. In the presence of 7.20 mM-Ca2+ (x 4), fertilizing ability was inhibited at both 30 and 120 min, despite a high incidence of acrosome loss. The primary deleterious effect appeared to be on motility which was judged to be more erratic than in 1.80 mM-Ca2+, possibly due to elevated intracellular Ca2+. Because of the considerable difference in threshold Ca2+ concentrations, it is now possible to dissociate the Ca2+-dependent events of capacitation from those of the acrosome reaction and motility changes.     

Capacitation and acrosomal exocytosis are enhanced by incubation of stallion spermatozoa in a commercial semen extender

Preserved stallion semen often has decreased spermatozoal motility and fertility that can vary significantly between individual stallions. It is not known whether the medium used for extending equine sperm contributes to these decreases by inducing premature capacitation during storage. If spermatozoa undergo capacitation or acrosome reaction prior to insemination, this could result in a diminished capacity to penetrate the cumulus mass and fertilize the egg. We hypothesized that skim milk-based semen extenders, similar to those used in cooled storage, stabilize sperm membranes and prolong sperm motility and longevity. However, this could decrease the efficiency of sperm to undergo subsequent capacitation in vivo. This study was designed to evaluate the effects from two media on sperm function. Spermatozoal motility was analyzed, intracellular calcium was measured, and the ability of sperm to undergo acrosome reaction was compared after incubation in a skim milk extender (SME) and Tyrode's medium containing albumin, lactate, and pyruvate (TALP) at 37 degrees C. Results suggest that the SME facilitated capacitation as detected by an increase in both intracellular calcium and acrosome reactions, and a decrease in motility, as compared to TALP. Our data support a shortened functional lifespan for equine sperm in skim milk extender, which indicates that further refinements in cooled semen preservation are required to improve fertility of transported equine semen.     

Inhibition of the human sperm acrosome reaction by proteinase inhibitors

The analogue of the second messenger cAMP, dibutyryl cAMP (dbcAMP), was shown to induce the human sperm acrosome reaction to the same extent as calcium ionophore A23187, providing preliminary evidence for the involvement of the adenylate cydase system in the acrosome reaction (AR) of human spermatozoa. Using the human synchronous acrosome reaction system, proteinase inhibitors were tested for their effect on the dbcAMP-induced human sperm acrosome reaction. The proteinase inhibitor 4′-acctamidophenyl4-guanidinoben-zoate (AGB), an inhibitor of proacrosin activation and of acrosin, when added at either the onset of incubation or to capacitated spermatozoa, 5 min prior to stimulation by dbcAMP, significantly (P < 0.01) inhibited the acrosome reaction at final concentrations of 1 × 10^?4 M to 1 × 10^?6 M in comparison to dbcAMP treatment alone. At concentrations less than 1 × 10^?6 M, no significant inhibitory effect was seen. Similarly, para-aminobenzamidine (pAB), also an inhibitor of proacrosin activation and of acrosin, significantly (P < 0.01) inhibited the dbcAMP-induced acrosome reaction at final concentrations of 1 × 10-4 M to I × 10-6 M when added at either the onset of incubation or to capacitated spermatozoa, 5 min prior to stimulation by dbcAMP, in comparison to stimulation by dbcAMP alone. However, at concentrations less than 1 × 10^?6 M, no significant (P > 0.05) inhibitory effect was seen. These results indicate that a serine proteinase, most likely acrosin, has a role in the human sperm acrosome reaction and suggest that the enzyme functions after the involvement of the adenylate cyclase system.     

AKAP3 selectively binds PDE4A isoforms in bovine spermatozoa

Cyclic AMP plays an important role in regulating sperm motility and acrosome reaction through activation of cAMP-dependent protein kinase A (PKA). Phosphodiesterases (PDEs) modulate the levels of cyclic nucleotides by catalyzing their degradation. Although PDE inhibitors specific to PDE1 and PDE4 are known to alter sperm motility and capacitation in humans, little is known about the role or subcellular distribution of PDEs in spermatozoa. The localization of PKA is regulated by A-kinase anchoring proteins (AKAPs), which may also control the intracellular distribution of PDE. The present study was undertaken to investigate the role and localization of PDE4 during sperm capacitation. Addition of Rolipram or RS25344, PDE4-specific inhibitors significantly increased the progressive motility of bovine spermatozoa. Immunolocalization techniques detected both PDE4A and AKAP3 (formerly known as AKAP110) in the principal piece of bovine spermatozoa. The PDE4A5 isoform was detected primarily in the Triton X-100-soluble fraction of caudal epididymal spermatozoa. However, in ejaculated spermatozoa it was seen primarily in the SDS-soluble fraction, indicating a shift in PDE4A5 localization into insoluble organelles during sperm capacitation. AKAP3 was detected only in the SDS-soluble fraction of both caudal and ejaculated sperm. Immunoprecipitation experiments using COS cells cotransfected with AKAP3 and either Pde4a5 or Pde4d provide evidence that PDE4A5 but not PDE4D interacts with AKAP3. Pulldown assays using sperm cell lysates confirm this interaction in vitro. These data suggest that AKAP3 binds both PKA and PDE4A and functions as a scaffolding protein in spermatozoa to regulate local cAMP concentrations and modulate sperm functions.     

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

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

Pentoxifylline induced signalling events during capacitation of hamster spermatozoa: significance of protein tyrosine phosphorylation.

To fertilize the oocyte, mammalian spermatozoa must undergo capacitation and acrosome reaction. These events are believed to be associated with various biochemical changes primarily mediated by cAMP, Ca2+ and protein kinases. But the precise signaling mechanisms governing sperm function are not clear. To study this, we used pentoxifylline (PF), a sperm motility stimulant and a cAMP-phosphodiesterase inhibitor, during capacitation and acrosome reaction of hamster spermatozoa. PF induced an early onset of sperm capacitation and its action involved modulation of sperm cell signaling molecules viz, cAMP, [Ca2+]i and protein kinases. The PF-induced capacitation was associated with an early and increased total protein phosphorylation coupled with changes in the levels of reactive oxygen species. Protein kinase (PK)-A inhibitor (H-89) completely inhibited phosphorylation of a 29 kDa protein while PK-C inhibitor (staurosporine) did not inhibit phosphorylation. Interestingly, PF induced protein tyrosine phosphorylation of a set of proteins (Mr 45-80 K) and a greater proportion of PF-treated spermatozoa exhibited protein tyrosine phosphorylation, compared to untreated controls (82 + 9% vs 34 +/- 10%; p < 0.001); tyrosine-phosphorylated proteins were localized specifically to the mid-piece of the sperm. The profile of protein tyrosine phosphorylation was inhibitable by higher concentrations (> 0.5 mM) of tyrosine kinase inhibitor, tyrphostin A47. However, at lower (0.1-0.25 mM) concentrations, the compound interestingly induced early sperm capacitation and protein tyrosine phosphorylation, like PF. These results show that protein tyrosine phosphorylation in the mid-piece segment (mitochondrial sheath) appears to be an early and essential event during PF-induced capacitation and a regulated level of tyrosine phosphorylation of sperm proteins is critical for capacitation of hamster spermatozoa.     

Peroxynitrite participates in mechanisms involved in capacitation of cryopreserved cattle

The effect of peroxynitrite (ONOO(-)) 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 five bulls was incubated in Tyrode's albumin lactate pyruvate (TALP) medium in the presence of heparin (10 IU/ml), sodium nitroprusside (SNP, 50 nM), a nitric oxide donor or 3-morpholinosydnonimine (SIN-1, 1-20 microM), a ONOO(-) donor. The participation of ONOO(-) was evaluated at 15, 30 and 45 min and confirmed by using a specific scavenger, uric acid (2-20 mM). Spermatozoa capacitated with SIN-1 were incubated with ovarian follicular fluid of cattle to evaluate their ability to undergo acrosome reaction. The role of ONOO(-) during capacitation induced by heparin or nitric oxide was evaluated by the addition of uric acid. The participation of protein kinase A (PKA), protein kinase C (PKC) and protein tyrosine kinase (PTK) in capacitation induced by ONOO(-) was evaluated by incubation with specific inhibitors (50 microM H-89, 0.1 microM bisindolylmaleimide I, and 3 microM genistein, respectively). Capacitation percentages were determined by the fluorescence technique with chlortetracycline (CTC) and true acrosome reaction was determined by trypan blue and Differential-Interferential Contrast (DIC). SIN-1 concentrations employed had no effect on progressive motility or sperm viability. Capacitation values of 10 microM SIN-1 treatment (23+/-2%) were significantly greater with respect to the control (4.6+/-1.62%). At 15 min of incubation the greatest capacitation was observed (P<0.05), reaching a plateau between 15 and 45 min. Follicular fluid induced acrosome reaction in spermatozoa previously capacitated with 10 microM SIN-1 (P<0.05). Uric acid prevented SIN-1-induced capacitation and significantly diminished capacitation induced by heparin or SNP. The addition of PKA and PKC inhibitors failed to modify the capacitation induced by SIN-1 (27.4+/-3.85 and 24.8+/-4.75, respectively). Genistein, a PTK inhibitor, produced a significant capacitation decrease (8.6+/-5.5%). These results indicate that endogenous ONOO(-) may be generated during heparin- or SNP-induced capacitation. Exogenous ONOO(-) acts as a capacitation inducer and involves the participation of PTK, as part of the intracellular mechanisms that lead to capacitation in cryopreserved bovine spermatozoa.     

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.     

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.     

Sperm from beta1,4-galactosyltransferase I-null mice exhibit precocious capacitation

Mammalian sperm must undergo a physiological maturation, termed capacitation, before they are able to fertilize eggs. Despite its importance, the molecular mechanisms underlying capacitation are poorly understood. In this paper, we describe the capacitation phenotype of sperm lacking the long isoform of beta1,4-galactosyltransferase I (GalT I), a sperm surface protein that functions as a receptor for the zona pellucida glycoprotein, ZP3, and as an inducer of the acrosome reaction following ZP3-dependent aggregation. As expected, wild-type sperm must undergo capacitation in order to bind the zona pellucida and undergo a Ca(2+) ionophore-induced acrosome reaction. By contrast, GalT I-null sperm behave as though they are precociously capacitated, in that they demonstrate maximal binding to the zona pellucida and greatly increased sensitivity to ionophore-induced acrosome reactions without undergoing capacitation in vitro. The loss of GalT I from sperm results in an inability to bind epididymal glycoconjugates that normally maintain sperm in an 'uncapacitated' state; removing these decapacitating factors from wild-type sperm phenocopies the capacitation behavior of GalT I-null sperm. Interestingly, capacitation of GalT I-null sperm is independent of the presence of albumin, Ca(2+) and HCO(3)(-); three co-factors normally required by wild-type sperm to achieve capacitation. This implies that intracellular targets of albumin, Ca(2+) and/or HCO(3)(-) may be constitutively active in GalT I-null sperm. Consistent with this, GalT I-null sperm have increased levels of cAMP that correlate closely with both the accelerated kinetics and co-factor-independence of GalT I-null sperm capacitation. By contrast, the kinetics of protein tyrosine phosphorylation and sperm motility are unaltered in mutant sperm relative to wild-type. These data suggest that GalT I may function as a negative regulator of capacitation in the sperm head by suppressing intracellular signaling pathways that promote this process.     

Inhibition of in vitro capacitation of hamster spermatozoa by nitric oxide synthase inhibitors.

In an attempt to understand the role of nitric oxide(NO) in sperm capacitation, in the present study, hamster spermatozoa were used to evaluate the effects of NO on motility, viability, hyperactivation, capacitation and protein tyrosine and serine phosphorylation using specific inhibitors of nitric oxide synthase (NOS); namely L-NAME (N-nito-L-aginine methyl ester) and 7-Ni (7-nitroindazole). The results indicated that L-NAME inhibits sperm motility, hyperactivation and acrosome reaction where as 7-Ni inhibits only hyperactivation and acrosome reaction thus implying that NOS inhibitors exhibit subtle differences with respect to their effects on sperm functions. This study also provides evidence that NOS inhibitors inhibit sperm capacitation by their ability to modulate protein tyrosine phosphorylation. However, the inhibitors had no effect on the protein serine phosphorylation of hamster spermatozoa during capacitation. Thus, these results indicate that NO is required     

Identification of extracellular signal-regulated kinase 1/2 and p38 MAPK as regulators of human sperm motility and acrosome reaction and as predictors of poor spermatozoan quality

Mature spermatozoa acquire progressive motility only after ejaculation. Their journey in the female reproductive tract also includes suppression of progressive motility, reactivation, capacitation, and hyperactivation of motility (whiplash), the mechanisms of which are obscure. MAPKs are key regulatory enzymes in cell signaling, participating in diverse cellular functions such as growth, differentiation, stress, and apoptosis. Here we report that ERK1/2 and p38 MAPK are primarily localized to the tail of mature human spermatozoa. Surprisingly, c-Jun N-terminal kinase 1/2, which is thought to be ubiquitously expressed, could not be detected in mature human spermatozoa. ERK1/2 stimulation is downstream to protein kinase C (PKC) activation, which is also present in the human sperm tail (PKCbetaI and PKCepsilon). ERK1/2 stimulates and p38 inhibits forward and hyperactivated motility, respectively. Both ERK1/2 and p38 MAPK are involved in the acrosome reaction. Using a proteomic approach, we identified ARHGAP6, a RhoGAP, as an ERK substrate in PMA-stimulated human spermatozoa. Inverse correlation was obtained between the relative expression level of ERK1 or the relative activation level of p38 and sperm motility, forward progression motility, sperm morphology, and viability. Therefore, increased expression of ERK1 and activated p38 can predict poor human sperm quality.     

Effects of PDC-109 on bovine sperm functional activity in presence or absence of heparin

PDC-109, a heparin-binding protein (from the seminal vesicles) that binds to sperm surface phospholipids at ejaculation, may modulate several aspects of sperm activity. The objectives of the present study were to determine: (1) in the presence or absence of heparin, the effects of exogenous PDC-109 on sperm motility (Makler chamber), viability (Hoechst 33258) and membrane functional integrity (hypoosmotic swelling test) of bovine spermatozoa; (2) the role of PDC-109 as a capacitation-inducing factor; and (3) its ability to induce the acrosome reaction (fluorescein staining). After 4-h capacitation in the presence of heparin, the addition of PDC-109 (0.5, 1.5 or 3.0mg/ml) significantly decreased the percentages of motile, progressive, and viable cells; these effects were also detected in the absence of heparin. However, PDC-109 elicited a twofold increase (from 14 to 28%) in the proportion of acrosome-reacted spermatozoa, but only in the presence of heparin. Progesterone (10 microM) or angiotensin II (100 or 1000 nM) stimulated the acrosome reaction after capacitation in the presence of PDC-109 without heparin (from 10 to 17, 23 and 22%, respectively). In conclusion, PDC-109 appears to modulate sperm functional activity, with some effects manifest in the absence of heparin.