Motility of spermatozoa from shovelnose sturgeon and paddlefish

The spermatozoa in the seminal plasma from shovelnose sturgeon Scaphirhynchus platorynchus and paddlefish Polyodon spathula were immotile with only a few spontaneously motile spermatozoa for 5-10 and 10-20 s, respectively. Spermatozoa of shovelnose sturgeon were observed to be 100% motile immediately after sperm dilution in 10 m m NaCl and 20 m m Tris-HCl, pH 8.5. The duration of mass progressive movement was 2-3 min; and 1 to 5% of spermatozoa remain active after 360 s (P<0.01). Spermatozoa of paddlefish demonstrated the best motility 10 s after dilution in 10 m m NaCl with 20 m m Tris-HCl, pH 8.5. The duration of mass progressive movement was 2-3 min and 1 to 5% of spermatozoa remained active after 370 s ( p <0.01). The spermatozoa of shovelnose sturgeon and paddlefish were motile in a range of osmotic pressure from 0 to 100 mosmol kg⁻¹ and 0 to 120 mosmol kg⁻¹, respectively. The best results with short-term storage of sperm from shovelnose sturgeon and paddlefish were observed in 100 m m glucose + 20 m m Tris-HCl, pH 8.5 and 150 m m glucose + 20 m m Tris-HCl, pH 8.5.     

Fertilizing potential of mouse spermatozoa cryopreserved in a medium containing whole eggs

Experiments were conducted to improve survival of mouse spermatozoa through the cryopreservation process. In the first experiment, percentages of motile spermatozoa and fertilizing capacities of spermatozoa were evaluated when mouse spermatozoa were cryopreserved using three previously reported cryopreservation media: (1) 18% raffinose in 3% skim milk; (2) Tes/Tris medium containing 25% egg yolk and 1.25% glycerol; and (3) PBS containing 18% raffinose and 1.75% glycerol, each at three different cooling rates (-3, -10, and -50 degrees C/min). Spermatozoa frozen in the skim milk/raffinose medium exhibited the highest percentage of motile spermatozoa (39%) when cells were frozen at -10 degrees C/min (P<0.05). The second experiment evaluated the effects of modifying the Tes/Tris/egg yolk medium, comparing different concentrations of egg yolk, BSA, and sodium dodecyl sulfate. Reducing egg yolk from 25% of the medium volume to 5%, increased percentages of motile spermatozoa after cryopreservation from 29 to 36% (P<0.05). Addition of 1% BSA and sodium dodecyl sulfate to medium containing 5% egg yolk further improved percentages of motile spermatozoa after freezing. In the final experiment, 20% whole egg was substituted for 5% egg yolk and 1% BSA used in previous experiments and resulted in percentages of motile spermatozoa (51%) equal to that of the skim milk-raffinose medium. However, fertility rates were higher (68%) than for spermatozoa frozen in the skim milk-raffinose medium (P < 0.05) and were comparable to the fertility rates of fresh spermatozoa (77%; P>0.05). In conclusion, freezing mouse spermatozoa in a medium containing 20% whole egg, 0.035% sodium dodecyl sulfate, and 1.25% glycerol using a cooling rate of -10 degrees C/min preserves the motility and fertilization capacity of mouse spermatozoa.     

Refrigerated storage and cryopreservation of black drum (Pogonias cromis) spermatozoa

Procedures were developed for the collection, refrigerated storage and cryopreservation of black drum spermatozoa. Sperm samples were collected by removing and slicing the testis, and suspending the spermatozoa in Hanks' balanced salt solution (HBSS) at 200 mOsm/kg. Threshold activation (10%) of black drum spermatozoa occurred at 370 mOsm/kg, and complete activation occurred at 580 mOsm/kg in HBSS. Sperm cells activated in artificial seawater had higher motility than those activated in HBSS at osmolalities from 350 to 500 mOsm/kg. Spermatozoa stored at 4 degrees C in HBSS or artificial seawater at osmolalities from 202 to 290 mOsm/kg retained motility longer than did those stored at other osmolalities Dilution rate had no effect on sperm storage time at 4 degrees C. Four chemicals were evaluated as cryoprotectants: dimethyl sulfoxide (DMSO), n,n-dimethyl acetamide (DMA), methanol, and glycerol. Glycerol and DMA at concentrations of 10% significantly reduced motility within 52 min. Spermatozoa were cryopreserved at 3 freezing rates (-27, -30, or -45 degrees C/min) in a nitrogen vapor shipping dewar or a computer-controlled freezer. Spermatozoa frozen using 10% DMSO had the highest post-thaw motility at a freezing rate of -27 or -30 degrees C/min. Spermatozoa frozen using 5% glycerol, 5% DMSO, or 10% DMSO had the highest post-thaw motility at a freezing rate of -45 degrees C/min.     

Cryopreservation of the sperm of the Japanese bitterling

Sperm of the Japanese bitterling Tanakia limbata that had been cryopreserved with 5 or 10% methanol plus 95 or 90% foetal bovine serum (FBS) showed higher percentage and longer duration of motility than those that had been cryopreserved with 90% FBS and 10% DMSO, glycerol, N,N-dimethylacetamide or N, N-dimethylformamide. Foetal bovine serum, used as extender, had some cryoprotective effects when spermatozoa were cooled either with 10% methanol or without methanol. Spermatozoa, cooled to −40° C and then immersed in liquid nitrogen, had greater post-thaw motility than those cooled to −20, −60, or −80° C. The post-thaw percentage of motile spermatozoa increased significantly ( P < 0·001) with decreases in the freezing rate from 60 to 5°C min⁻¹. These results indicate that 10% methanol plus 90% foetal bovine serum is a suitable diluent for cryopreservation of bitterling spermatozoa and that samples should be cooled to -40°C at a low freezing rate for effective storage.     

Separation of canine epididymal spermatozoa by Percoll gradient centrifugation

The objective was to characterize the separation of canine epididymal spermatozoa on a Percoll gradient. Epididymal spermatozoa were overlaid on a 45 and 90% discontinuous Percoll gradient and centrifuged at 700 x g for 20 min. The Percoll column was separated into six fractions (top to bottom, A-F) after centrifugation. Fractions A-C contained few spermatozoa. Spermatozoa with bent or folded tails and a large amount of granular debris were observed in Fraction B. Fraction D contained many nonmotile spermatozoa, erythrocytes and round epithelial cells. Spermatozoa in Fraction E had significantly lower motility than those in the initial layer. Spermatozoa in Fraction F had motility similar to those before separation. Fraction F contained 40.6% of the motile spermatozoa layered and 67.5% of all motile spermatozoa recovered. There was no significant difference between Fraction F and the initial layer in sperm membrane integrity. In the sperm-oocyte penetration assay, spermatozoa from Fraction F had a significantly higher penetration rate into the immature homologous oocytes than those from Fraction E. Although the recovery rate of the motile spermatozoa was low, the canine epididymal spermatozoa with motility, membrane integrity and penetrating capability could be separated by two-layer discontinuous Percoll gradient centrifugation.     

AMP-activated kinase AMPK is expressed in boar spermatozoa and regulates motility

The main functions of spermatozoa required for fertilization are dependent on the energy status and metabolism. AMP-activated kinase, AMPK, acts a sensor and regulator of cell metabolism. As AMPK studies have been focused on somatic cells, our aim was to investigate the expression of AMPK protein in spermatozoa and its possible role in regulating motility. Spermatozoa from boar ejaculates were isolated and incubated under different conditions (38,5°C or 17°C, basal medium TBM or medium with Ca(2+) and bicarbonate TCM, time from 1-24 hours) in presence or absence of AMPK inhibitor, compound C (CC, 30 μM). Western blotting reveals that AMPK is expressed in boar spermatozoa at relatively higher levels than in somatic cells. AMPK phosphorylation (activation) in spermatozoa is temperature-dependent, as it is undetectable at semen preservation temperature (17°C) and increases at 38,5°C in a time-dependent manner. AMPK phosphorylation is independent of the presence of Ca(2+) and/or bicarbonate in the medium. We confirm that CC effectively blocks AMPK phosphorylation in boar spermatozoa. Analysis of spermatozoa motility by CASA shows that CC treatment either in TBM or in TCM causes a significant reduction of any spermatozoa motility parameter in a time-dependent manner. Thus, AMPK inhibition significantly decreases the percentages of motile and rapid spermatozoa, significantly reduces spermatozoa velocities VAP, VCL and affects other motility parameters and coefficients. CC treatment does not cause additional side effects in spermatozoa that might lead to a lower viability even at 24 h incubation. Our results show that AMPK is expressed in spermatozoa at high levels and is phosphorylated under physiological conditions. Moreover, our study suggests that AMPK regulates a relevant function of spermatozoa, motility, which is essential for their ultimate role of fertilization.     

Effects of dead spermatozoa on motion characteristics and membrane integrity of live spermatozoa in fresh and cooled-stored equine semen

The aim of this study was to determine if dead spermatozoa reduced motility or membrane integrity of live spermatozoa in fresh and cooled-stored equine semen. Three ejaculates from each of three stallions were centrifuged and virtually all seminal plasma was removed. Spermatozoa were resuspended to 25 x 10(6) spermatozoa/ml with EZ-Mixin CST extender and 10% autologous seminal plasma, then divided into aliquots to which 0 (control), 10, 25, 50, or 75% (v/v) dead spermatozoa were added. Dead spermatozoa preparations contained 25 x 10(6) spermatozoa/ml and 10% seminal plasma from pooled ejaculates of the three stallions, in EZ-Mixin CST extender. Spermatozoa were killed in the pooled ejaculates by repeated freezing and thawing, then stored at -20 degrees C until warmed to 37 degrees C and mixed with aliquots of fresh spermatozoa to be cooled and stored in an Equitainer for 24h. Motion characteristics (% total motility (MOT), % progressive motility (PMOT), and mean curvilinear velocity (VCL)) for fresh and 24h cooled samples were determined using a computerized spermatozoal motion analyzer. The presence of up to 75% dead spermatozoa did not adversely affect MOT or PMOT of live spermatozoa in either fresh or cooled-stored semen. However, VCL and the percentage of membrane-intact spermatozoa were reduced compared to control samples when 75% (v/v) dead spermatozoa were added. Membrane integrity, as assessed by staining with carboxyfluoresein diacetate-propidium iodide, was highly correlated (r>0.8; P<0.001) with MOT and PMOT in both fresh and cooled-stored semen samples. Results of this study have application to the processing of both cooled and frozen equine semen.     

Long-term preservation of chilled canine semen: effect of commercial and laboratory prepared extenders

The present study was conducted to evaluate chilled semen conservation over time in 3 commercial and 4 laboratory prepared extenders, including a new Tris-glucose extender. The beneficial effect of adding egg yolk to these media was also analyzed. The effects of these extenders on motility and acrosome reaction were characterized objectively using a computer-aided semen analyzer and the chlortetracycline staining, respectively. No significant differences were observed when comparing the different commercial extenders without egg yolk, but addition of egg yolk improved all motility parameters significantly (preservation of 50% of motility was observed at 3.2+/-1, 2.9+/-0.5, 2.3+/-0.5, 8.5+/-0.2, 5.4+/-1.1, 5.2+/-0.4 d, for Biladyl, green extender and fresh-phos extenders without and with egg yolk, respectively). Motility parameters were best preserved in egg yolk supplemented Biladyl extender with a mean percentage of 86.3+/-10.5 motile spermatozoa after 7 d at 4 degrees C. Efficacy of egg yolk-supplemented commercial extenders on sperm motility at 4 degrees C was (in decreasing order) as follows: Biladyl > green extender > fresh-phos. However, high quality motility and the percentage of motile spermatozoa were highest with some of the laboratory prepared extenders: a 50% conservation rate of motile spermatozoa was observed following the use of supplemented egg yolk extenders. These are classified in decreasing order as follows: Tris-glucose (13+/-1 d) > Tris-fructose (9.7+/-0.6) > EDTA (4.+/-0.6 d) > Tris-bes (3.6+/-1.1 d). A low concentration of motile spermatozoa was still observed in the Tris-glucose egg yolk extender 16 d after collection, clearly demonstrating the importance of the medium and the beneficial effect of egg yolk on sperm motility of 4 degrees C chilled semen. Similar effects of extender were observed for acrosome reactions. Egg yolk clearly had a protective effect reducing acrosome reactions significantly in all media tested as follows: the highest acrosome losses were observed in the fresh-phos and EDTA extenders without egg yolk; the lowest rate was observed with Tris-glucose supplemented egg yolk extender. In conclusion, at 4 degrees C, egg yolk extender best-protected sperm motility parameters. Differences in osmolarity between the extenders in terms of substrate related to sperm metabolic activity may explain the optimal results obtained using egg yolk-supplemented Tris-glucose extender, which preserved motility and acrosome integrity in chilled dog semen. These results indicated that good quality dog spermatozoa could be preserved for up to 10 d.     

Functional changes and motility characteristics of Japanese Black bull spermatozoa separated by Percoll

Spermatozoa from two Japanese Black bulls (Bull-ATF and Bull-KTG) were separated by centrifugation at 700 x g for 15min in modified TALP with or without 45-90% Percoll. Control washed spermatozoa and those collected from the bottom of 45 and 90% Percoll fractions were examined for viability and membrane integrity (using Hoechst bis-benzimide 33258 or propidium iodide and 6-carboxyfluorescein diacetate (PI-CFDA)), acrosomal status (using fluorescence isothiocyanate (FITC) conjugated Pisum Sativum agglutinin (PSA) and Peanut agglutinin (PNA), Naphthol Yellow S and Erythrosin B (NE) or triple staining (TS)), capacitation status (using chlortetracycline (CTC)), motility characteristics (using a computer-assisted sperm motion analysis system (CASA)) and for in vitro fertility. Percoll-separated spermatozoa showed greater viability and membrane integrity than controls, as determined by supravital staining. Differences were observed in the results regarding viability and acrosomal status of spermatozoa among sperm staining methods. Bull-ATF, which showed significantly greater in vitro fertility than Bull-KTG (P<0.05), showed a significantly higher rate of CTC-B-pattern (capacitated) spermatozoa (P<0.01) than Bull-KTG. The motility characteristics of control washed spermatozoa and those separated by 45-90% Percoll were analyzed by CASA. More motile and progressively motile spermatozoa were observed in the fraction at the bottom of the 90% Percoll solution than in the 45% Percoll fraction or in controls (P<0.01). Moreover, the spermatozoa of Bull-KTG, which showed lower in vitro fertility than Bull-ATF, did not show significant differences in motility from those of Bull-ATF. These results provided basic information about Japanese Black bull spermatozoa, and suggested that spermatozoa with greater motility and viability can be obtained by Percoll separation than without separation. However, Percoll separation did not enhance their in vitro fertility.     

Cryopreservation of mouse spermatozoa in the presence of raffinose and glycerol

When mouse epididymal spermatozoa were rapidly frozen in two steps (37 to -70 degrees C for solid CO2 and -70 to -196 degrees C for liquid nitrogen) as pellets, 18% raffinose provided the greatest protection to ICR mouse spermatozoa against cold-shock; sperm motility and fertilizing ability were 43% and 22.4%, respectively. A small proportion of spermatozoa frozen with 10% sucrose was motile but incapable of fertilizing ovulated oocytes. Glycerol and dimethylsulphoxide were less effective at any concentration examined. However, the fertilizing ability of frozen-thawed ICR spermatozoa was significantly improved (35.5%) by addition of glycerol (1.75% final concentration) to medium containing 18% raffinose. Spermatozoa from one outbred (ddY) and 5 inbred (C57BL/6N, C3H/HeN, DBA/2N, BALB/c and kk) strains of mice were successfully frozen in the presence of 18% raffinose and 1.75% glycerol, although the fertilization rates of frozen-thawed spermatozoa varied among strains (13% for C57BL/6N to 64% for DBA/2N). A small fraction of mouse eggs resulting from fertilization by frozen-thawed spermatozoa developed normally in vitro (37% in C57BL/6N to 71% in ICR) to the blastocyst stage and in vivo (19% for C57BL/6N spermatozoa and ddY oocytes) to Day 18 of gestation.     

RELATIONSHIPS AMONG MORPHOLOGICAL STATUS, STEROID HORMONES, AND POST-THAWING VIABILITY OF FROZEN SPERMATOZOA OF MALE MINKE WHALES (BALAENOPTERA ACUTOROSTRATA)

Spermatozoa from 21 mature minke whales ( Balaenoptera acutorostrata ) taken in the Antarctic Ocean for Japanese research were recovered from vasa deferentia, diluted 1:9 in a Tris-based diluent, and frozen at - 80°C on board the vessel. After a period ranging from 45 to 125 d, the samples were transferred to liquid nitrogen and transported to the laboratory. After thawing at 37°C the motility (percentage of motile spermatozoa), vitality (proportion of live spermatozoa), and sperm concentration were determined for each sample. These values were tested for correlations with morphological measurements (body size, body weight, testis weight) and serum concentrations of progesterone (Pd), estradiol-17β (E2), and testosterone (T). Ten of 21 samples had motile spermatozoa (2%-40%). Although no motile spermatozoa were observed in 1.1 samples, all sperm samples were examined by eosinnigrosin staining and showed vitality levels of 3%44%. It was found that the motility (Y = 0.54) and vitality (r = 0.53) of the spermatozoa were significantly (P < 0.01) correlated with the E₂ levels (8.50 ± 1.80 pg/ml). Serum T levels (0.07 ± 0.02 ngml) were significantly correlated with the E₂ levels (r = 0.58, P < 0.01>, but sperm concentrations were not correlated with either Ea or T levels. The present study demonstrates that spermatozoa of minke whales can be successfully cryopreserved.     

Improvements and short-term viability of mouse epididymal spermatozoa recovered through the Spermprep filtration method

This study was designed to determine the effects of Sephadex filtration (Spermprep(trade mark)I method) on the separation of motile, morphologically normal, mouse epididymal spermatozoa and to study the viability of the recovered spermatozoa over a 3-h incubation period. Spermatozoa were harvested from the caudae epididymie (5 animals per run or replication; n=10) following bilateral testicular excision, after which they were incubated in 2-ml of Test-Yolk buffer (TYB) at 37 degrees C for 15-min. The specimens were then split into 2 1-ml aliquots, with Aliquot 1 as the control and Aliquot 2 as the filtered sample. The Spermprep(trade mark)I column was employed according to the manufacturer's specifications using TYB. During filtration (10-min), 2 different fractions were obtained: first 5-min (Sample 1) and second 5-min (Sample 2). The 2 fractions were evaluated and incubated at 37 degrees C and assessed for percentage of motility and grade of motility (0 to 4) every 30-min for 3-h. Filtration resulted in a significant improvement in the percentage and grade of motility (91.5% and 3.0 vs 76.5% and 2.5, respectively). The results indicate that filtration with the Spermprep(trade mark)I method improved the percentage and grade of motility (P<0.05) but not the percentage of normal morphology of the spermatozoa. In addition, the Spermprep(trade mark)I method enabled the recovery of 45% (8.3 x 10(6) spermatozoa recovered) of the total number of spermatozoa processed in the control aliquot (18.4 x 10(6) spermatozoa), which is consistent with previous observations. Most importantly, filtered spermatozoa incubated for 3-h showed a greater percentage and grade of motility than the control spermatozoa (63% and 1.66 vs 39% and 0.82, respectively. The Spermprep(trade mark)I filtration method selected a higher proportion of quality spermatozoa, which also displayed significant long-term motility (longevity) during in vitro incubation.     

Sperm motility in the horseshoe crab,Limulus polyphemus L: I. Sperm behavior near eggs and motility initiation by egg extracts

Limulus spermatozoa are nonmotile when spawned and become motile only after encountering a sperm motility initiating factor (SMI) exuded by the egg. SMI extracts (produced by washing intact eggs with distilled water, lyophilizing the supernatant to dryness, and redissolving the dried extract in artificial seawater, ASW) initiate sperm motility in the absence of eggs. Utilizing such SMI extracts, sperm motility initiation was found to be unaffected by changes in temperature from 16 to 30°C, pH from 6.3 to 8.6, and salinity from 85 to 125% ASW. Within these ranges, sperm motility initiation was an “all-or-nothing” response, with greater than 99% of the spermatozoa becoming motile. Also, each sperm swam with apparently the same speed (at a given temperature) until spontaneously stopping within 10 min after the addition of SMI extracts. Evidence was found that SMI may bind irreversibly to a receptor, which is inactivated within a few seconds or minutes, leading to the observed cessation of motility. Observations of sperm behavior near intact eggs showed no evidence of chemotaxis. Spermatozoa observed to swim toward intact eggs progressed with a uniform speed and were motile less than 5 sec from initiation of motility until attaching to the egg. The presence of an all-or-nothing response to SMI, the independence of sperm motility to experimental parameters, and several other characteristics of the animal and its spermatozoa make Limulus a potentially excellent model animal for examination of sperm motility control mechanisms.     

Effects of cryopreservation methods on post-thaw motility of spermatozoa from the Japanese pearl oyster, Pinctada fucata martensii

In order to develop cryopreservation techniques for Japanese pearl oyster spermatozoa, the effects of various cryopreservation conditions on post-thaw motility were examined. Spermatozoa cryopreserved with 10% methanol (MET), dimethylformamide or dimethylacetamide plus 90% diluent comprising 80% seawater and 20% fetal bovine serum (FBS) showed higher percentages of post-thaw motility than those cryopreserved with 10% dimethylsulfoxide or glycerol. When spermatozoa were cryopreserved with various concentrations (0-20%) of MET and 100-80% diluent, 10% MET showed the highest percentages of post-thaw motility. When spermatozoa were cryopreserved with 10% MET and 90% diluent comprising various concentrations (0-100%) of FBS or Ringer solution mixed with seawater, the percentages of post-thaw motility peaked at 20% FBS or Ringer solution, and were significantly higher for 20% FBS than for 20% Ringer solution. The percentages of post-thaw motility increased with increasing dilution ratios from 2.5- to 50-fold. Spermatozoa cooled to -50 degrees C and then immersed in liquid nitrogen (LN) showed higher post-thaw motility than those cooled to -30 degrees C or -40 degrees C. When spermatozoa were cryopreserved to -50 degrees C at various cooling rates by changing the sample height above the LN surface, the post-thaw motilities of spermatozoa cooled at 10 cm (cooling rate: -21.3 degrees C/min) and 12.5 cm (-15.6 degrees C/min) from the LN surface were higher than those at 5, 7.5 or 15 cm. These results indicate that 10% MET plus 90% diluent comprising 80% seawater and 20% FBS is a suitable extender for cryopreservation of Japanese pearl oyster spermatozoa and that samples should be cooled to -50 degrees C at a cooling rate between -15 and -20 degrees C/min for efficient storage.     

The effect of the trypsin inhibitor aprotinin (Trasylol) and TLCK on the gelatinolytic activity of acrosin and the motility of rabbit sperm in vitro

In a series of experiments the influence of the trypsin inhibitors aprotinin (Trasylol) and TLCK (N-p-tosyl-L-lysin chloromethyl ketone) on the gelatinolytic activity of acrosin and motility of rabbit spermatozoa was tested. Ejaculated, highly motile spermatozoa were washed in Brackett-Medium. 12.5 to 1000 microns Aprotinin and 50 to 1000 micrograms TLCK, respectively, were added to samples of 1 ml sperm suspension: the specimens were incubated at 37 degrees C. Increasing aprotinin concentrations reduced the gelatinolytic activity of acrosin and the sperm incubation at a concentration of 1000 micrograms Aprotinin/ml sperm. Spermatozoa in all TLCK specimens were entirely immotile 1.5 hours after incubation. The gelatinolytic activity of acrosin was obviously not inhibited at any TLCK concentration. These results suggest that, under these experimental conditions, aprotinin and TLCK may impair primarily the motility spermatozoa.