Comparison of sperm velocity, motility and fertilizing ability between firstly and secondly activated spermatozoa of common carp (Cyprinus carpio)

The objective of the study was to compare carp sperm motility performances (sperm velocity and motility rates) from 10 males including fertilizing ability (hatching rates from 10 males and eight females) as a function of time elapsed after sperm exposure to activation medium in two situations: firstly activated sperm and sperm which had terminated swimming and was ‘re‐activated’ after incubation in a K⁺ rich (200 mm KCl) non‐swimming solution. In case of both initial (first) and secondly activated spermatozoa, the motility was triggered in hatchery solution (HAS, 11.2 mOsmol) and in carp activation solution (CAS, 128.9 mOsmol) containing 45 mm NaCl, 5 mm KCl, 30 mm Tris–HCl while also adjusted to a pH of 8.0. First time activated sperm showed significantly higher relative motility, sperm velocity and fertilizing ability compared to re‐activated sperm. The carp spermatozoa (in either first or second activation) rapidly lost their fertilizing ability as a function of exposure time of sperm to diluents prior to addition to eggs: this shows that spermatozoa must be in contact with eggs as soon as their motility is triggered. When sperm was firstly activated in CAS and also activated a second time in CAS (labeled CASCAS) the hatching rate was significantly higher at egg contact after 10, 20, 30, and 120 s of activation. Also at 20 s after the second activation of the sperm higher sperm motility was observed compared to the first activation. This study showed that incubation of spermatozoa in a K⁺‐rich incubation medium can mitigate the affects of structural damages occurring in re‐activated sperm, which may help spermatozoa to increase their motility and fertilization. To our knowledge, the results presented in this study document for the first time that fertilization can be achieved with sperm re‐activated a second time while being exposed to a incubation medium that permits ATP reloading within the flagellum. Previous studies have show the potential for recovery of motility, however, the effect on possible fertilization is hitherto unknown. It critical outcome of the study clearly indicated the need for avoiding the use of different, subsequent activation media (e.g. first and second activation) but only on the same medium for both steps (see above CASCAS).     

Na+/K+ATPase regulates sperm capacitation through a mechanism involving kinases and redistribution of its testis‐specific isoform

Incubation of bovine sperm with ouabain, an endogenous cardiac glycoside that inhibits both the ubiquitous (ATP1A1) and testis‐specific α4 (ATP1A4) isoforms of Na⁺/K⁺ATPase, induces tyrosine phosphorylation and capacitation. The objectives of this study were to investigate: (1) fertilizing ability of bovine sperm capacitated by incubating with ouabain; (2) involvement of ATP1A4 in this process; and (3) signaling mechanisms involved in the regulation of sperm capacitation induced by inhibition of Na⁺/K⁺ATPase activity. Fresh sperm capacitated by incubating with ouabain (inhibits both ATP1A1 and ATP1A4) or with anti‐ATP1A4 immunoserum fertilized bovine oocytes in vitro. Capacitation was associated with relocalization of ATP1A4 from the entire sperm head to the post‐acrosomal region. To investigate signaling mechanisms involved in oubain‐induced regulation of sperm capacitation, sperm preparations were pre‐incubated with inhibitors of specific signaling molecules, followed by incubation with ouabain. The phosphotyrosine content of sperm preparations was determined by immunoblotting, and capacitation status of these sperm preparations were evaluated through an acrosome reaction assay. We inferred that Na⁺/K⁺ATPase was involved in the regulation of tyrosine phosphorylation in sperm proteins through receptor tyrosine kinase, nonreceptor type protein kinase, and protein kinases A and C. In conclusion, inhibition of Na⁺/K⁺ATPase induced tyrosine phosphorylation and capacitation through multiple signal transduction pathways, imparting fertilizing ability in bovine sperm. To our knowledge, this is the first report documenting both the involvement of ATP1A4 in the regulation of bovine sperm capacitation and that fresh bovine sperm capacitated by the inhibition of Na⁺/K⁺ATPase can fertilize oocytes in vitro. Mol. Reprod. Dev. 77: 136–148, 2010. © 2009 Wiley‐Liss, Inc.     

Effects of lipid peroxide formation in fowl semen on sperm motility, ATP content and fertilizing ability

The ability of samples of semen from individual male fowl to form the products of lipid peroxidation during 5 h aerobic incubation at 40 degrees C varied between 0 and 8 nmol malonaldehyde/10(9) spermatozoa. Formation of higher concentrations of malonaldehyde was associated with a partial or complete loss of fertilizing ability whilst the fertilizing ability of samples producing low or negligible concentrations of malonaldehyde remained unimpaired. The semen of birds which showed a tendency to form high concentrations of malonaldehyde was not readily identifiable as abnormal by assessment of sperm motility, morphology or ATP content. Nor was the loss of fertilizing ability during aerobic incubation associated with an obvious change in these characteristics.     

Sperm biology and control of reproduction in sturgeon: (II) sperm morphology, acrosome reaction, motility and cryopreservation

In the present review, sperm morphology, acrosome reaction, motility, short-term storage and cryopreservation are summarized and discussed in sturgeon (Chondrostei, Acipenseriformes). The elongated head of spermatozoon comprises an acrosome with 8?C12 posterolateral projections. Usually three endonuclear canals are observed in the nucleus. Proximal and distal centrioles and 3?C6 mitochondria are located in the midpiece region. The flagellum consists of an axoneme with a typical ??9?+?2?? structure of microtubules and presents a ribon-like structure due to two lateral membranous fins. Egg water, Ca²⁺ and Mg²⁺ can trigger acrosome reaction. Trypsin- and chymotrypsin-like activities are reported in sturgeon sperm. These physiological properties of sturgeon sperm are identified as serine activity with 33?kDa molecular mass and can be inhibited by their respective inhibitors. The K⁺ prevents sperm activation in seminal plasma, and hypo-osmolality or decrease of extracellular K⁺ triggers sperm activation. Extracellular Ca²⁺ is involved in flagellar beating pattern and sperm velocity. After activation, sperm motility, velocity, and flagellar beating frequency, wavelength and amplitude decrease, while number of waves and curvature increase. Sturgeon sperm can be stored for several days at 4?°C; however it is better to add K⁺ into the immobilizing medium because it prevents sperm activation during incubation. Regarding sperm cryopreservation, methanol is a better cryoprotectant than DMSO. Either short-term storage or cryopreservation of sperm generates damage to spermatozoa that lead to reduction of sperm motility performance. Some studies suggest using an activation medium containing Ca²⁺ for enhancing sperm motility performance of incubated or frozen-thawed sperm.     

Initiation,prolongation, and reactivation of the motility of salmonid spermatozoa

The motility of salmonid spermatozoa initiated by dilution of the milt with ovarian fluid or isotonic saline is brief duration; it was believed that it can be activated only once in the life of the spermatozoon. Dilution of the milt with an equal volume of isotonic saline (0.12 M-NaCl) containing 5 mM-3-isobutyl-1-methylxanthine (MIX) prolonged and intensified sperm motiliy. When motility had stopped after initial mobilization with saline or ovarian fluid, it could be reactivated by addition of MIX; reactivated spermatozoa fertilized eggs. Dilution with saline containing K⁺ (24 mEq/liter) did not initiate sperm motility even in the presence of MIX. The spermatozoa were mobilized by subsequent with 0.12 M-NaCl. The concentration of adenosine triphosphate (ATP) in sperm suspensions dropped on dilution with saline and rose as motility ceased, but declined without subsequent recovery following dilution with MIX-saline. The concentration of cyclic adenosine monophosphate (cAMP) rose and fell sharply on initiation of motility and rose again after motility had declined. While salmonid spermatozoa can be mobilized by dilition with saline alone, the effectiveness of MIX in reactivating “spent” spermatozoa supports the assumption that cAMP plays a role in the initiation of sperm motility.     

A comparative study of the effects of freezing and frozen storage on intact and demembranated bull spermatozoa

The damage caused to bull sperm by freezing and thawing them without cryoprotectants was assessed in both intact and membrane-extracted cells. Preparations of membrane-extracted cells were produced by treating the sperm with 0.1% Triton X-100 and motility was restored with exogenously applied ATP and Mg²⁺. Motile demembranated sperm showed no detectable reduction in motility after freezing and thawing. In contrast, when intact cells where subjected to freezing and thawing they lost all motility. These damaged cells were also restored to motility when exogenous ATP and Mg²⁺ were added to the sperm mixture. Apparently freezing and thawing sperm cells causes damage to the plasma membrane which permits ATP and Mg²⁺ to freely enter or leave the cells, but does not damage the components of the sperm cell which generate motility.The effects of storage temperature on frozen demembranated sperm were also explored. Sperm held at ?20 °C showed marked structural changes and progressively decreased motility after prolonged storage. When sperm were frozen at ?20 °C the mitochondrial structures were completely lost after 48 to 72 hr and ATP caused the disintegration of the flagellum rather than initiating motility. Sperm which were frozen at ?76 °C retained motility after short periods of storage, but showed a significant decline in motility when thawed after 8 days. Demembranated sperm which were kept frozen at ?196 °C showed no significant loss of motility when thawed after 1 year of storage.     

Assessment of ability of endangered Caspian brown trout, <Emphasis Type="Italic">Salmo trutta caspius</Emphasis> (Salmonidae) in production of semen with desirable quality

To assay the effects of stripping frequency on semen characteristics of Caspian brown trout, Salmo trutta caspius, the chemical composition of seminal fluid, sperm production (semen volume, sperm density, spermatocrit,) and sperm motility characteristics (percentage and duration of motility) were investigated over four times stripping during the spawning season. According to data, semen volume, sperm density, osmolality and the concentrations of Na⁺, Cl⁻, K⁺, Ca²⁺, Mg²⁺ and total protein gradually decreased by increasing of stripping frequency. The values of glucose and triglyceride had no significant changes over four times stripping. Also, the values of semen pH, the percentage (5 s after activation) and duration of motility were statistically stable until third stripping but a decrease was recorded for these parameters in the fourth stripping. As well as, significant positive correlations were found for sperm density vs. K⁺, Cl⁻, Na⁺, Ca²⁺, Mg²⁺, total protein, spermatocrit; the percentage of motile spermatozoa vs. Ca²⁺, Mg²⁺, K⁺, Cl⁻, Na⁺, total protein, and also the duration of motility vs. K⁺, Cl⁻, total protein and pH. In text, specific objectives of this study have been expressed.     

La Cryoconservation de la laitance de la carpe, Cyprinus carpio

Cryo-preservation of carp, Cyprinus carpio, sperm Deep-freezing trials of carp sperm were carried out by varying several factors such as the basic saline solution, the cryoprotectors added (glycerol, propanediol, ethylene glycol and DMSO), the media (Menezo-INRA B², egg yolk, urea) and the deep-freezing and dilution rates. The success of deepfreezing was judged by the percentage of motile spermatozoa, intensity of motility, fertilizing ability and morphological integrity of the spermatozoa studied under the scanning electron microscope. DMSO was the best cryoprotector and the mineral composition of the dilution medium the least important factor, but there was noticeable improvement after organic compounds were added. The following mixture has been proposed: NaCl 100 mM + KC1100 mM, Tris 20 mM, pH 8: 37%, Menezo medium B² INRA: 15%, urea 5%, DMSO: 10%, fresh sperm: 33%. Optimal deep-freezing rate was: 5°C/min from 2 to-7°C and 25°C/min from-7 to-70°C. In these conditions, about 70 to 80% of the spermatozoa were motile after thawing compared to fresh control sperm, but fertilizing ability was not more than 30 to 40% of that with fresh sperm. The percentage of spermatozoa considered intact was 66% after thawing as against 83% for fresh control sperm. The motility and fertilizing ability of deep-frozen sperm were significantly improved when the dilution rate at insemination was reduced from ¹/₁₀₀ to 1/2.     

Sperm motility in the horseshoe crab,Limulus polyphemus L: II. Partial characterization of a motility initiating factor from eggs and the effects of inorganic cations on motility initiation

Egg extracts (obtained by washing intact Limulus eggs with either distilled water or artificial seawater, ASW) contain a sperm motility initiating factor (SMI). The SMI is heat stable (withstands boiling to dryness), passes through a dialysis membrane, and is retained by G-10 Sephadex (indicating a molecular weight of less than 700). Qualitative analysis (by X-ray fluorescence spectroscopy) and quantitative analysis (by atomic absorption spectroscopy) of SMI extracts revealed the presence of four divalent cations (Ca, Mg, Ni, and Cu) and one monovalent cation (K) that affect sperm motility. When assayed individually at high concentrations, all of the divalent cations initiate sperm motility and K⁺ inhibits motility initiation by the divalent cations. However, none of the divalent cations are present at concentrations high enough to produce the observed SMI activity, and since K⁺ is present when motility is initiated by SMI, K⁺ must not normally be an inhibitor. Therefore, if inorganic cations are involved in normal sperm motility initiation in Limulus, they are acting in conjunction with some other low molecular weight factor.     

Glucose metabolism in human spermatozoa: lack of insulin effects and dissociation from alloxan handling

The role of glucose metabolism in sperm cell motility was examined in purified human spermatozoa from the perspective of elucidating its possible significance in spontaneous and experimental diabetes. After a 4-h incubation in the absence of D-glucose, the mean progressive velocity of human spermatozoa was 40% lower than that of control cells kept in the presence of D-glucose. The decline was rapidly overcome by the addition of D-glucose or D-fructose, the amplitude of this stimulatory effect being independent of the ambient hexose concentration. Between 1.4 and 16.7 mM glucose, spermatozoal glucose oxidation also proceeded independently of the extracellular glucose levels, whereas both insulin (100nM) and glucagon (100nM) failed to significantly affect the rate of glucose metabolism or cellular motility. It is speculated from these results that an alteration in seminal hexose concentrations or pancreatic hormone levels may be an unlikely cause for the reduced sperm motility that is characteristically observed in diabetic patients. Human spermatozoa rapidly incorporated D-glucose and 3-O-methyl-D-glucose but excluded the glucose-analogue alloxan, which may explain their resistance against the toxic effects of this diabetogenic drug, in spite of their intrinsic sensitivity to organic peroxides such as tert-butyl hydroperoxide.     

In vitro capacitation of boar ejaculated spermatozoa: Effect of conditioned media prepared from preincubated sperm suspension

The fertilizing ability of boar ejaculated spermatozoa was examined in vitro after prcincubation at a concentration of 2.5 × 10⁸/ml for 4 hr in several conditioned media (CM). For preparation of CM, boar spermatozoa were incubated in a modified Krebs-Ringer bicarbonate solution (TYH) at concentrations of 20 to 40 × 10⁸/ml for several hours up to 4 hr; then their supernatant fluids were collected by centrifugation. When boar ejaculated spermatozoa were preincubated in TYH alone, 14.1% of oocytes were penetrated by them as we reported previously. On the other hand, preincubating them with CM, their fertilizing ability was elevated according as the incubation time of CM preparation was lengthened. The fertilization rate reached 75.0%, using 4 hr-incubated CM for the preincubation medium. The effect of CM was not deteriorated by heat treatments (56°C, 30 min, or 100°C, 5 min). The components of CM were separated at a molecular weight of 25,000 by ultrafiltration, and high fertilization rate (69.8%) was obtained when low molecular weight fraction was used for the preincubation medium. Sperm extracts prepared from directly frozen-thawed sperm suspension and 0.1–10 mM of taurine or hypotaurine had no effect on the fertilizing ability of boar spermatozoa. These results suggest that substances stimulating boar sperm capacitation were accumulated from viable spermatozoa into the medium during incubation and that the effective substances were heat-stable and of low molecular weight and were not taurine and hypotaurine.     

Taurine and human spermatozoal capacitation

The effect of taurine at various concentrations (0.01, 0.1 and 1 mM) on the in vitro motility and fertilizing capacity of human spermatozoa was studied. Spermatozoa collected from 10 normal men were washed in BWW medium and incubated with taurine for 5 hours, the period required for spermatozoal capacitation. The percent motilities were recorded at 0 and 5 hours during capacitation preincubation with taurine. After incubation, the spermatozoa were washed with BWW medium to remove taurine before insemination of the zona-free hamster ova for an assessment of the fertilizing capacity. Taurine caused a significant dose-dependent increase in the penetration of the zona-free hamster ova in comparison to the control (p less than 0.05). Taurine did not have any significant effects on the spermatozoal motility during capacitation preincubation. The results suggest that there may be a physiological role for this beta-amino acid in human spermatozoal capacitation in vivo.     

Implication that potassium flux and increase in intracellular calcium are necessary for the initiation of sperm motility in salmonid fishes

Flux of K⁺ and changes in intracellular Ca²⁺ in the sperm of salmonid fishes were measured with spectrophotometry, ion electrode, microscopic fluorometry, and radioisotope accumulation. Release of K⁺ occurred at the initiation of sperm motility which is induced by decrease in external K⁺ and the K⁺ efflux and sperm motility were inhibited by K⁺ channel blockers. Intracellular Ca²⁺ increased within a short period in K⁺- free condition, and the accumulation of ⁴⁵Ca in sperm cells was higher in motile sperm than that in immotile sperm. The efflux of K⁺ and the increase in intracellular Ca²⁺ were suppressed when external K⁺ concentration increased, i.e., sperm remained immotile. These results suggest that efflux of K⁺ through K⁺ channel and subseqent increase in intracellular Ca²⁺ are prerequisite for the initiation of sperm motility. © 1994 Wiley-Liss, Inc.     

Equine spermatozoal motility and fertility associated with the incorporation of d-(+)-mannose into semen extender

Mannose is capable of decreasing bacterial attachment to the uterine mucosa in mares. Bacteria gain entry into the mare's uterus during breeding; therefore, a practical method to deliver mannose to the uterus is to incorporate it into semen extenders. The effect of mannose on spermatozoal motility and subsequent sperm fertilizing capability is unknown. The present study evaluated progressive spermatozoal motility in semen extender formulations incorporating mannose and assessed the fertility of mares inseminated with a mannose-containing semen extender. In Experiment 1, progressive spermatozoal motility in extender mixtures containing 0 mannose (control), 25, 37 or 49 mg/mL mannose was evaluated at 20 degrees C or 5 degrees C holding temperatures for 0, 12, 24 and 48 h post-dilution. Measures were repeated three times using five stallions of proven fertility. High concentrations of mannose in the extender affected progressive motility beyond the time and temperature effects noted in the controls. Extender containing only mannose sugar (49 mg/mL) displayed an immediate depression in progressive motility compared with controls (45.5% versus 62.9%, respectively; P<0.001). The 37 mg/mL mannose extender had a less dramatic decrease in motility (P<0.05) and only after storage at 5 degrees C for > or =12h (48.7% versus 58.0%, respectively). Extender with 25 mg/mL mannose performed no differently than the control formulation under all conditions. In Experiment 2, two groups of mares (n=11 each) were inseminated with 500 x 10(6) progressively motile spermatozoa extended in a traditional skim milk (control) extender or the 37 mg/mL mannose extender preparation. A single-cycle pregnancy rate of 72% was achieved by both groups. Present data suggest that a semen extender containing up to 37 mg/mL mannose could maintain motile spermatozoa for on-farm use and 25 mg/mL mannose concentrations preserved motility during long-term cooling. Likewise, sperm extended with up to 37 mg/mL of mannose had the same fertilizing capability as sperm in traditional extender mixtures.     

Measurements of bovine sperm velocities under true anaerobic and aerobic conditions.

Velocities of bovine spermatozoa in a medium containing glucose were similar under true anaerobic and aerobic conditions. Spermatozoa were not able to sustain motility under anaerobic conditions when glycolysis was inhibited, but regained motility when re-aerated. This demonstrates that immobilisation was due to lack of oxygen and that conditions under which motility was analysed were truly anaerobic. Sperm motility parameters were not significantly different in the presence and absence of 4 microM antimycin A and 4 microM rotenone when glucose was present in the medium. After each incubation, functionality of sperm mitochondria was assayed by washing sperm into the medium which supported respiration but not glycolysis, and motility was visually assessed. All sperm samples were highly motile in this medium indicating that their mitochondria were functional. When glycolysis was inhibited, antimycin and rotenone abolished sperm motility immediately after addition. Bovine sperm can maintain similar levels of motility aerobically and anaerobically if a glycolysable substrate is available. Available data on bovine sperm energetics support this view.     

Lysozyme activities and immunoglobulin concentrations in seminal plasma and spermatozoa of different teleost species and indications on its significance for sperm function

The occurrence of lysozyme and immunoglobulin (Ig) in semen of different teleost species (brown trout—Salmo trutta, perch—Perca fluviatilis, burbot—Lota lota) was studied. In all investigated species lysozyme activities (1.13-1.45 U ml⁻¹) and Ig concentrations (T-Ig: 1.11-1.61 μg ml⁻¹, IgG [measured only in brown trout]: 1.49 μg ml⁻¹) were detected in seminal plasma. Ig was also found in spermatozoa (T-Ig: 0.234-0.357 μg/g protein, IgG: 0.198 μg ml⁻¹) while spermatozoal lysozyme activities were low and fluctuating (0.093-0.164 U/g protein). In Salmo trutta lysozyme activities and immunoglobulin levels were compared between semen samples with high and low sperm motility as motility is an indicator for sperm fertility. Lysozyme activities were higher in seminal plasma of samples with high motility than in those with low motility while seminal plasma and spermatozoal immunoglobulin concentrations (T-Ig, IgG) were increased in samples with low motility in comparison to samples with high motility. Seminal plasma and spermatozoal IgG concentrations and seminal plasma lysozyme activities showed significant correlations with the sperm motility rate and swimming velocity. Moreover, lysozyme improved the viability of spermatozoa in in vitro experiments. Possible physiological meanings of these results are discussed.     

Protein tyrosine phosphorylation during prolonged in vitro incubation of ejaculated bovine spermatozoa is regulated by the oxidative state of the medium

Protein tyrosine phosphorylation plays a regulatory role in a multitude of physiological processes in sperm. Changes in protein tyrosine phosphorylation, viability, and motility were studied as a function of extended incubation of bovine sperm in vitro at ambient temperature (18-20 degrees C). Fresh ejaculates were incubated after dilution for 8 days. On Days 0, 2, 5, and 8, an aliquot of sperm was incubated with or without theophylline at 37 degrees C for 30 min prior to assessing sperm viability, motility, and tyrosine phosphorylation of soluble and whole-cell proteins. There was a time-dependent decline in sperm motility, which was to some extent reversed by incubation with theophylline. The sum of the phosphotyrosine signal from two soluble proteins (M(r) 67 000 and 36 000) declined with incubation time in both theophylline-treated and untreated sperm. There were major differences in the pattern of tyrosine phosphorylation during incubation between ejaculates from different bulls. Tyrosine phosphorylation of a number of proteins from whole-cell extracts increased in a time-dependent manner during in vitro incubation and was unaffected by the presence of theophylline in the medium. The oxygenation state of the incubation medium had profound effects on sperm motility, viability, and tyrosine phosphorylation of proteins from whole-cell extracts. Sperm motility and viability declined more rapidly under aerobic compared with anaerobic conditions. Tyrosine phosphorylation of proteins from whole-cell extracts increased considerably during anaerobic incubation, while there was no significant change during aerobic incubation. This increase in phosphorylation due to anaerobic incubation was reversed when sperm were transferred from an anaerobic to an aerobic environment, indicating that the oxygenation state of the medium regulates both protein tyrosine kinases and phosphatases. In addition, sperm incubated under aerobic conditions for 5 days retained the ability to phosphorylate proteins when transferred to an anaerobic environment. The increase in protein tyrosine phosphorylation during in vitro incubation took place in a medium that did not contain capacitating substances such as heparin, sodium bicarbonate, or BSA. It transpired over a time scale of days and was not augmented by an increase in intracellular cAMP concentration through phosphodiesterase inhibition. Protein tyrosine phosphorylation during extended in vitro incubation at ambient temperature was significantly inhibited by the presence of oxygen in the medium.     

Effects of tyrosine kinase inhibitor on the motility and ATP concentrations of fowl spermatozoa

The possible role of tyrosine kinase in the regulation of fowl sperm motility was investigated by using a stable analogue of erbstatin, methyl 2,5-dihydroxycinnamate (2,5-MeC), a specific inhibitor of tyrosine kinase. This inhibited the motility of intact spermatozoa at 30°C in a dose-dependent manner. In contrast, the motility of demembranated spermatozoa was not inhibited by the same concentrations of 2,5-MeC. At 40°C, both intact and demembranated spermatozoa were almost immotile with or without 2,5-MeC. Additionally, intact spermatozoa, stimulated by the addition of Ca²⁺ or calyculin A, a specific inhibitor of protein phosphatases, lost their motility with the subsequent addition of 2,5-MeC at 40°C. However, unlike the motility, the ATP concentrations of spermatozoa were maintained in about 30–35 nmol ATP/10⁹ cells during these incubation periods. The activity of tyrosine kinase of spermatozoa at 30°C, estimated by measuring the phosphorylation of a synthetic peptide substrate, RR-SRC, was 0.17 pmol/min per milligram of protein. This activity was lower than that of fowl testes or chick brain but higher than that of chick liver. These results suggest that tyrosine kinase activity, which is not retained in the axoneme and/or accessory cytoskeletal components, may be involved in the maintenance of flagellar movement of fowl spermatozoa at 30°C. Mol. Reprod. Dev. 49:196–202, 1998. © 1998 Wiley-Liss, Inc.     

Regulation of spermatozoa motility in response to cations in Russian sturgeon Acipenser gueldenstaedtii

The aim of this study was to investigate the response of Russian sturgeon (Acipenser gueldenstaedtii) sperm to external cations (Na⁺, K⁺, Ca²⁺, and Mg²⁺) and their susceptibility on the induction of motility and swimming behavior. An in vitro spermatozoa motility assay was used by a computer-aided Motion-Analysis system. Sperm motility was inhibited by 60 mm NaCl (∼140 mOsm/kg) and 0.7 mm KCl solutions (∼ 21.4 mOsm/kg). The Ca²⁺ and Mg²⁺ ions were not able to inhibit spermatozoa motility. By contrast, Na⁺ within a limited concentration range (between 45 and 55 mm) was able to reverse the inhibitory effect of K⁺ at the critical concentration (0.7 mm). Ca²⁺ and Mg²⁺ were also able to reverse the K⁺-mediated spermatozoa motility restriction at concentrations starting at 0.01 and 0.1 mm, respectively. These results provide evidence for the role of K⁺ in suppressing spermatozoa motility, and suggest that Ca²⁺, Mg²⁺, and possibly Na⁺ trigger motility in Russian sturgeon sperm.     

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.