Storage of red deer epididymides for four days at 5 degrees C: effects on sperm motility,viability, and morphological integrity

The purpose of this study was to assess the sperm motility, the plasma membrane integrity and the morphology of red deer spermatozoa when maintained within epididymides stored for 4 days at 5 degrees C, and to evaluate whether such stored spermatozoa are able to withstand a refrigeration process. Thirty pairs of testes, with attached epididymides, were collected from 30 hunter-killed mature stags (Cervus elaphus hispanicus), and spermatozoa from each one of the pairs were immediately collected in Triladyl medium, evaluated and refrigerated (Control Group). The remaining testes and epididymides were gradually cooled to 5 degrees C and stored for 1, 2, 3, and 4 days (Experimental Groups), after which spermatozoa were processed as described previously for the control group. The effects on spermatozoa that had been stored within epididymides for various times were determined by assaying sperm motility index (SMI), plasma membrane integrity and sperm morphology (SM). In the same way, SMI and SM were assessed after spermatozoa refrigeration at 5 degrees C for 3 hours in different groups (SMI-R, SM-R). There was no significant decrease in plasma membrane integrity of spermatozoa recovered from epididymides stored at 5 degrees C for 4 days. Similarly, the percentage of morphologically normal spermatozoa remained unaffected during the first 3 days of storage. In contrast, during storage sperm motility evaluation revealed significantly (P<0.05) lower SMI values for samples from epididymides stored 2, 3, and 4 days (47.7+/-3.6, 45.5+/-4.4, 44.1+/-5.2) than that of the control group (57.6+/-1.6). Similar results were obtained after refrigeration of spermatozoa in Triladyl at 5 degrees C. These data suggest that it might be possible to recover functional spermatozoa from red deer epididymides stored at 5 degrees C during several days when epididymal spermatozoa cannot be collected and cryopreserved immediately.     

New preservation method for mouse spermatozoa without freezing

The objective of this study was to investigate the preservation of spermatozoa in a simple medium without freezing and to examine the effects of the preserved sperm on fertilization and development after injection into mature mouse oocytes. Mouse spermatozoa were collected from two caudae epididymides of mature B6D2F1 males and stored under various conditions: 1) in KSOMaa medium (potassium simplex optimized medium with amino acids) supplemented with 0, 1, or 4 mg/ml BSA and held at room temperature (RT, 27 degrees C); 2) in KSOMaa medium containing 4 mg/ml BSA (KSOM-BSA) and held at 4 degrees C, RT, or 37 degrees C (CO2 incubator); 3) in KSOM-BSA with osmolarity ranging from 271 to 2000 mOsmol, adjusted by addition of NaCl and held at 4 degrees C; and 4) a two-step preservation system consisting of storage in 800 mOsmol KSOM-BSA for 1 wk at RT followed by storage at -20 degrees C. Preservation of mouse spermatozoa at 4 degrees C in a medium with high osmolarity (700-1000 mOsmol) resulted in the highest frequency of live births after intracytoplasmic sperm injection (ICSI) into mature oocytes. The optimal conditions for preservation of mouse spermatozoa were 800 mOsmol KSOM containing 4 mg/ml BSA and a holding temperature of 4 degrees C. More than 40% of oocytes injected with sperm heads stored under these conditions for 2 mo developed to the morula/blastocyst stage in vitro and 39% of the embryos developed to term after transfer to recipient mice. Our results also indicate that mouse spermatozoa can be stored in 800 mOsmol KSOM-BSA medium at RT for 1 wk and then at -20 degrees C for up to 3 mo and retain their competence for ICSI. These new preservation methods permit extended conservation of viable spermatozoa that are capable of supporting normal embryonic development and the live birth of healthy offspring after ICSI.     

Viable spermatozoa can be recovered from refrigerated mice up to 7 days after death

To develop a model for utilizing germ cells collected from dead animals, male mice were euthanized and refrigerated for various periods, and the viability of the epididymal spermatozoa was examined by in vitro fertilization, embryo culture, and embryo transfer. Higher proportions of fresh oocytes were fertilized when males had been stored at 4-6 or 8-10 degrees C than at 0 degrees C. By partially dissecting the zona of freshly ovulated oocytes, spermatozoa from ICR male mice could fertilize oocytes (21% fertilization rate) after being stored for 5 days at 4-6 degrees C, and spermatozoa from BDF1 male mice could fertilize oocytes (39%) after being stored for 7 days at 4-6 degrees C. The resulting two-cell embryos had the ability to develop into expanded blastocysts in culture (81-100%) and into live young after transfer (34-47%). With further refinement of this system, it should be applicable not only for rescuing valuable genetic variants in laboratory animals or livestock animals but also for wild species in the future.     

不同品系小鼠的体外受精、胚胎冷冻及移植的比较研究

目的　探讨不同品系小鼠的体外受精、胚胎和精子的低温保存效果。方法　本实验分别在中国科学院上海实验动物中心 (SLAC)和日本熊本大学动物资源开发中心 (CARD)对 13个品系小鼠 (C57BL 6J、BALB c、C3H HeJ、ICR、KM、FVB、MRL、NOD、CBA、DBA 2、CD 1、BDF1、B6C3F1)的体外受精 (IVF)率、胚胎培养及移植成绩进行了比较研究。结果　各品系小鼠新鲜精子的IVF率 15 1%～ 87 9% ,冻融精子的IVF率 8%～ 80 % ;冷冻胚胎的复苏率4 2 6 %～ 83 9% ;冻融胚胎移植后的产仔率在 17 8%～ 5 1 8%。结论　遗传背景不同的小鼠体外受精率、冷冻胚胎复苏率和胚胎移植的产仔率差异有显著性。但同一品系两个实验室间的新鲜精子的IVF率、冷冻胚胎的复苏率及移植产仔率差异无显著性 (P >0 0 5 ) ;冻融精子的体外受精率CARD明显高于SLAC(P <0 0 1)。     

Cryopreservation and transport of mouse spermatozoa at -79 degrees C.

In the present study, 2 experiments were carried out. In experiment 1, mouse spermatozoa were frozen and stored in an ultra-low temperature freezer maintained at -79 degrees C, from 1 week to 8 months. In vitro fertilization rates of the frozen-thawed sperm after 1 week and 4 months of storage were high at 71 and 71%, respectively. These values did not differ significantly from the value (73%) of the control stored at -196 degrees C. In contrast, the 8-month storage rate was significantly lower at 51%. In experiment 2, frozen spermatozoa were transported in a Styrofoam box packed in dry ice from Hokkaido to Tokyo. In vitro fertilization rate of frozen-thawed sperm after transport at -79 degrees C was high at 88%, which was not significantly different from that (84%) of the transported control at -190 degrees C. After transferring two-cell embryos derived from frozen spermatozoa to recipients, 37-62% of the embryos developed into offspring in both experiments. These results indicate that mouse spermatozoa can survive cryopreservation in an ultra-low temperature freezer (-79 degrees C) for up to 4 months and transport at -79 degrees C.     

Cryopreservation and ensuing in vitro fertilization ability of boar spermatozoa from epididymides stored at 4 degrees C

The influence of prolonged storage of boar epididymides on post-thaw sperm motility, and in vitro fertilization was evaluated. Twenty pairs of epididymides were obtained from Large White boars, and spermatozoa from one of each of the pairs were immediately collected and frozen (control group). The remaining epididymides were cooled to 4 degrees C and stored for 1, 2 or 3 d, after which spermatozoa were collected and frozen (experimental groups Day 1, 2 and 3, respectively). Sperm motility was maintained throughout the dilution procedure and then dropped (P < 0.01) after freezing and thawing. During storage the motility of nonfrozen spermatozoa decreased significantly (P < 0.01), reaching a value equal to that of frozen-thawed spermatozoa on Day 3. In vitro fertilization experiments revealed significantly (P < 0.05) lower penetration rates using Day 1, 2 and 3 stored spermatozoa (12, 13 and 2%, respectively) than that of the control group (40%). Oocyte penetration ability seemed to be reflected by acrosome integrity. However, the motility of spermatozoa with the ability to penetrate oocytes in Day 1 and Day 2 groups did not differ from that of the controls. The motility of spermatozoa lacking penetration ability, on the other hand, gradually decreased as the storage period was prolonged. This suggests that the sperm motility and penetration ability are affected by different mechanisms during the cold storage of epididymides. Finally, control and experimental groups exhibited high incidences of monospermic penetration (64 to 90%) and of male pronuclear formation (67 to 71%). These data suggest that cryopreservation of spermatozoa from boar epididymides stored at 4 degrees C for 1 to 2 d can be used for conserving male germ cells when epididymal spermatozoa can not be collected immediately and cryopreserved.     

Recovery of motile,membrane-intact spermatozoa from canine epididymides stored for 8 days at 4 degrees C

The purpose of this study was to determine how long canine spermatozoa remain motile and with intact membranes when maintained within epididymides stored at 4 degrees C, and to determine whether such stored spermatozoa are able to bind to canine zonae pellucidae. Testes with attached epididymides, obtained from 32 dogs (26 purebred; six mixed breeds) at orchiectomy, were refrigerated at 4 degrees C, and spermatozoa were collected from caudae epididymides at nine time intervals ranging from 5 to 192 h. The effects on spermatozoa that had been refrigerated within epididymides for various times were determined by assaying sperm motility, integrity of plasma membranes and of acrosomes, and measuring binding of membrane-intact spermatozoa to canine zonae pellucidae. Membrane integrity was assessed using a double fluorescent dye, and acrosome integrity by staining with Pisum sativum agglutinin. For the zona-binding assay at various refrigeration time points, duplicate sets of six oocytes each, isolated from ovaries retrieved at elective ovariohysterectomy, were placed into 100 microl droplets of sperm capacitation medium containing 5 x 10(6) spermatozoa/ml. One minute later, oocytes were rinsed vigorously by pipetting, and then incubated for 1 h at 38.5 degrees C in a humidified atmosphere of 5% CO2 in air; the number of membrane-intact spermatozoa bound to zonae were counted. There was no significant decrease in membrane integrity and acrosome integrity of spermatozoa recovered from epididymides stored at 4 degrees C within the first 48 h of refrigeration. In contrast, sperm motility decreased significantly within the first 5 h of refrigeration (P < 0.05), but then declined more gradually thereafter. Some spermatozoa recovered from epididymides that had been refrigerated for 192 h retained their capability to bind to zonae pellucidae, although the mean number of refrigerated spermatozoa (0.4) bound to zonae was less than that of fresh samples (9.0). Membrane integrity of spermatozoa recovered from epididymides refrigerated for various times was highly correlated (r = 0.88) with sperm motility. Even after storage for 192 h (8 days) at 4 degrees C, motile spermatozoa could be recovered from the epididymides, and such refrigerated spermatozoa were capable of binding to zonae. We interpreted these data to indicate that it might be possible to recover functional spermatozoa from postmortem specimens of domestic and nondomestic canids.     

Recovery and cryopreservation of sika deer (Cervus nippon) spermatozoa from epididymides stored at 4 degrees C

The aim of this study is to clarify influence of cold storage of deer epididymides on sperm quality and suitability for cryopreservation. The epididymides were obtained postmortem from sika deer during the breeding season. When epididymides were removed 8-12h postmortem and stored at 4 degrees C for 1-4 days, the collected spermatozoa showed low motility (6.4%). When spermatozoa were collected from epididymides removed within 4h postmortem, sperm motility and viability were 71.8 and 82.4%, respectively. Sperm motility decreased as prolongation of the storage period of the epididymides continued up to 7 days, but sperm viability was not affected. Pyknosis of the epithelial cells and their release into the lumen were observed in the stored epididymides. Epididymal spermatozoa frozen on Day 0 showed 58.1% motility and 83.2% viability. Motility of the frozen-thawed spermatozoa from epididymides stored at 4 degrees C for 1 day (41.9%) was similar to that of nonfrozen spermatozoa from epididymides stored for 4 days (41.8%). These results suggest that refrigeration of deer epididymides or cryopreservation of spermatozoa from refrigerated epididymides can be used for assisted reproductive techniques when epididymal spermatozoa cannot be collected immediately.     

Fertilization of cumulus-free,zona-intact mouse ova in vitro at high and low sperm concentrations

The effect of varying the sperm concentration between 2 × 10⁵ sperm/ml and 8 × 10⁶ sperm/ml on fertilization of cumulus-free, zona-intact F1 (CBA × C57BL) mouse ova by QS and F1 (CBA × C57BL) mouse spermatozoa was studied. The spermatozoa from both strains of mice exhibited optimal fertilization rates at 2 × 106 sperm/ml. However, at sperm concentrations greater than 4 × 106 sperm/ml and less than 1 × 106 sperm/ml, fertilization rates were significantly reduced. F1 spermatozoa were more susceptible to dilution than QS spermatozoa. A significant interaction between strain and sperm concentration indicated that the two strains produced different fertilization rates at different sperm densities. Extracts of epididymal fluid, medium from capacitated spermatozoa, or ampulla fluid did not improve the fertilization rate at 2 × 105 sperm/ml, but retaining the cumulus oophorus did. The decrease in fertilization rate at 8 × 106 sperm/ml can in part be attributed to a nondialysable inhibitor from the neat sperm preparation that appeared to be of epididymal origin.     

Fertilization of C57BL/6 mouse sperm collected from cauda epididymides after preservation or transportation at 4 °C using laser-microdissected oocytes

The C57BL/6 mouse is commonly used to produce transgenic and knockout strains for biomedical research. However, the motility and fertility of its sperm decrease markedly with freezing. Short-term preservation of sperm without freezing can avoid this. Furthermore, such samples can be transported safety without the special skills or equipment needed for the transportation of live animals or frozen products. We evaluated the motility and fertility of sperm collected from cauda epididymides after preservation or transportation at 4 °C. Oocytes with the zona pellucida subjected to laser-microdissection were used to assist fertilization in vitro. Although the motility of sperm gradually decreased with storage (P < 0.05), no disruption of the sperm plasma membrane was seen. The proportion of zona-intact oocytes fertilized with sperm preserved for 0, 24, 48 and 72 h were 70, 14, 5 and 1%, respectively. On the other hand, 45, 20 and 14% of laser-microdissected oocytes were fertilized by sperm preserved for 24, 48 and 72 h, respectively (P < 0.05). The fertility of sperm collected from cauda epididymides of two transgenic strains after transportation at 4 °C were also significantly increased using laser-microdissected oocytes rather than zona-intact oocytes (57 and 68% vs. 5%, P < 0.05). Efficient production of offspring from sperm preserved or transported at 4 °C was achieved using laser-microdissected oocytes. Thus the fertility of sperm preserved or transported at 4 °C could be maintained, although motility gradually decreased with storage. Laser-microdissected oocytes will contribute to the efficient production of embryos and offspring using such preserved sperm samples.     

Decrease of fertilizing ability of mouse spermatozoa after freezing and thawing is related to cellular injury

In general, the fertilizing ability of cryopreserved mouse spermatozoa is less than that of fresh spermatozoa. This ability is especially low in C57BL/6, the main strain used for the production of transgenic mice. To solve this problem, the relationship between cell damage and fertilizing ability in cryopreserved mouse spermatozoa was examined in this study. Sperm motility analysis revealed no significant difference among the motilities of cryopreserved C57BL/6J, BALB/cA, and DBA/2N sperm (67.6%, 43.4%, and 60.0%, respectively) after thawing. However, the results of in vitro fertilization (IVF), scanning electron microscopy (SEM), and transmission electron microscopy (TEM) showed a strong correlation between the frequency of aberrant spermatozoa (FAS) and fertilization rates (FR; C57BL/6J: FAS, 83.7%; FR, 17.0%; BALB/cA: FAS, 67.2%; FR, 24.2%; and DBA/2N: FAS, 10.2%; FR, 93.6%), and damage to spermatozoa was localized particularly in the acrosome of the head and mitochondria.     

Effect of partial incision of the zona pellucida by piezo-micromanipulator for in vitro fertilization using frozen-thawed mouse spermatozoa on the developmental rate of embryos transferred at the 2-cell stage.

Cryopreservation of mouse spermatozoa is widely used, although considerable strain differences in fertilization rates using frozen-thawed mouse spermatozoa have been described. The C57BL/6 mouse strain is a very widely used for establishment of transgenic mice, but the fertilization rate associated with the use of cryopreserved C57BL/6 spermatozoa is very low compared with rates for other inbred strains. We have recently solved this difficulty by in vitro fertilization (IVF) in combination with partial zona pellucida dissection (PZD). However, this technique requires culture of fertilized eggs with PZD in vitro up to morula or blastocyst stage before transfer into the uterus because blastomeres are lost after transfer into the oviduct because of the relatively large artificial slit in the zona pellucida. To overcome this problem, we performed a partial zona pellucida incision by using a piezo-micromanipulator (ZIP) for IVF with frozen-thawed mouse spermatozoa. The blunt end of the micropipette touched the surface of the zona pellucida of the oocytes, and piezo pulses were used to incise the zona pellucida while the pipette was moved along by the surface of zona pellucida. The length of the incision was pir/6 microm. When cumulus-free ZIP and PZD oocytes were inseminated with frozen-thawed genetically modified C57BL/6J spermatozoa, the fertilization rates of ZIP and PZD oocytes were 52% and 48%, respectively. After embryo transfer at the 2-cell stage, 18% and 2% of the transferred embryos with ZIP and PZD developed to term, respectively. This difference was significant (P < 0.05). When ZIP and PZD zygotes were cultured to blastocyst stage and subsequently transferred to uterine horns of recipient animals, the difference between ZIP and PZD zygotes for development rate to full term was not significant. Our results indicate that ZIP is an effective alternative technique for IVF using cryopreserved mouse spermatozoa and subsequent embryo transfer.     

Intrabursal transfer of spermatozoa (ITS): a new route for artificial insemination of mice.

Artificial insemination (AI) by direct injection of epididymal spermatozoa into the reproductive tract of females is simpler and more convenient than in vitro fertilization (IVF) and subsequent transfer of fertilized eggs to recipient oviducts for simultaneous acquisition of a large number of pups. Introduction of epididymal spermatozoa into oviducts via the oviductal wall or via vaginal and intrauterine routes is currently the most commonly used method for AI in mice. In this study, we explored another route for AI of the mouse and found that transfer of spermatozoa into a space near the infundibulum between the ovary and ovarian bursa enables in vivo fertilization of ovulated oocytes at the ampulla. When 1 microL of a sperm suspension containing 1 x 10(4) spermatozoa freshly isolated from B6C3F1 males was intrabursally injected into superovulated B6C3F1 females on E (embryonic day) 0.4 (10:00 AM), 5 of 7 females yielded 2-cell embryos with rates of efficiency ranging from 4 to 21% (11% on average), which were much lower than those (91% on average) for embryos obtained by natural mating. All the 2-cell embryos derived from injection of sperm developed in vitro to hatched blastocysts. Similar results were obtained from injection of 1 microL of sperm suspension containing 1 x 10(3) spermatozoa, although in vivo fertilizing ability was slightly improved (28% on average). When 1 microL of sperm suspension containing 1 x 10(4) spermatozoa was injected intrabursally into superovulated females that had been mated with vasectomized males, 6 of 10 mice (60%) yielded 19 normal mid-gestational fetuses with an average litter size of 3.2, which was much lower than that (14.5) for embryos obtained by natural mating. Although the present findings appear to be preliminary, this technique, based on the intrabursal transfer of spermatozoa, will be of practical use for AI in mice, particularly for transgenic and mutant mice that are often difficult to breed.     

The birth of mice from testicular spermatozoa retrieved from frozen testicular sections

Male gamete cryopreservation has been widely used for both human reproduction and animal breeding. We investigated whether testicular spermatozoa retrieved from frozen testicular sections (10 or 25 mum thick) could support the full-term development of normal progeny. For this purpose, frozen testicular sections were prepared from two genetic backgrounds (BDF1 or B6 GFP transgenic mice), and the functional ability of testicular spermatozoa after preservation for 1 day, 1 mo, and 3 mo was assessed by intracytoplasmic sperm injection (ICSI). Testicular spermatozoa were successfully retrieved from frozen testicular sections for the use of ICSI, regardless of the preservation period. The ICSI technique revealed that oocytes (BDF1 or B6 background) injected with testicular spermatozoa prepared from frozen testicular sections developed into normal progeny, even though the sections had been cryopreserved for 3 mo at -30 degrees C. Approximately 15% and 5% of the embryos preserved for 3 mo developed to full term if the testicular spermatozoa were prepared from the 25- and 10-mum sections, respectively. These results clearly indicate that male gametes can be viably preserved in frozen testicular sections. The technique described herein will allow the preservation of male gametes in the form of a "book" or "file" by mounting the sections on a paper-thin sheet. Furthermore, this technique may be of value in the clinical treatment of severe male infertility, since testicular spermatozoa can easily be found through examination of testicular cross sections rather than by attempts to identify them in testicular cell suspension.     

Investigations of motility and fertilization potential in thawed cryopreserved mouse sperm from cold-stored epididymides

Cold transport of epididymides from genetically modified mice is an efficient alternative to the shipment of live animals between research facilities. Mouse sperm from epididymides cold-stored for short periods can maintain viability. We previously reported that cold storage of mouse epididymides in Lifor® perfusion medium prolonged sperm motility and fertilization potential and that the sperm efficiently fertilized oocytes when reduced glutathione was added to the fertilization medium. Cryopreservation usually results in decreased sperm viability; an optimized protocol for cold storage of epididymides plus sperm cryopreservation has yet to be established. Here, we examined the motility and fertilization potential of cryopreserved, thawed (frozen-thawed) sperm from previously cold-stored mouse epididymides. We also examined the protective effect of sphingosine-1-phosphate (S1P) on sperm viability when S1P was added to the preservation medium during cold storage. We assessed viability of frozen-thawed sperm from mouse epididymides that had been cold-transported domestically or internationally and investigated whether embryos fertilized in vitro with these sperm developed normally when implanted in pseudo-pregnant mice. Our results indicate that frozen-thawed sperm from epididymides cold-stored for up to 48 h maintained high fertilization potential. Fertilization potential was reduced after cold storage for 72 h, but not if S1P was included in the cold storage medium. Live pups were born normally to recipients after in vitro fertilization using frozen-thawed sperm from cold-transported epididymides. In summary, we demonstrate an improved protocol for cold-storage of epididymides that can facilitate transport of genetically engineered-mice and preserve sperm viability after cryopreservation.     

Cryoprotectant-free cryopreservation of human spermatozoa by vitrification and freezing in vapor: effect on motility, DNA integrity, and fertilization ability

Human spermatozoa can be successfully cryopreserved avoiding the use of cryoprotectants through vitrification at very high cooling rates (up to 7.2 x 10(5) degrees C/min). This is achieved by directly plunging a copper cryoloop loaded with a sperm suspension into liquid nitrogen. After storage, vitrified spermatozoa are instantly thawed by melting in an agitated, warm medium. The goal of the present study was to compare the quality of spermatozoa cryopreserved using this rapid vitrification method with that of spermatozoa cooled relatively slowly by preexposure of the loaded cryoloop to liquid nitrogen vapor (-160 degrees C) with speed in the range 150-250 degrees C/min) before immersion into liquid nitrogen. Both cooling modes led to comparable results in terms of the motility, fertilization ability, and DNA integrity of the warmed spermatozoa. In both cases, instant thawing by melting in a warm medium was essential for successful cryopreservation. Our findings suggest that optimal regimes for the cryoprotectant-free cryopreservation of spermatozoa need not be restricted to very fast cooling before storage in liquid nitrogen, a wide range of cooling rates being acceptable. Herein, we discuss the implications of this finding in the light of the physics of extra- and intracellular vitrification.     

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.     

Post-thaw functional status of boar spermatozoa cryopreserved using three controlled rate freezers: a comparison

This study compared variation in the quality of cryopreserved boar spermatozoa and the control and accuracy of cooling rates between three semen freezers (CryoLogic Freeze Control CL3000, Planer Products Kryo Save Compact KS1.7/Kryo 10 Control module and a controlled rate 'Watson' freezing machine developed within our laboratory). Five ejaculates were collected from each of 15 boars (five boars from each of three breeds). Semen was diluted into a commercial freezing buffer (700 mOsm/kg, 3% v/v glycerol) and placed into 0.5 ml straws. Three straws per treatment, from each ejaculate were cooled to -5 degrees C at 6 degrees C/min, held at -5 degrees C for 30s while ice crystal formation was induced, then further cooled from -5 to 80 degrees C at either 40 degrees C/min (Kryo Save Compact KS1.7 and Watson) or 6 degrees C/min (Freeze Control CL3000). Precise measurements of temperature fluctuations during the programmed cooling curves were made by inserting thermocouples into the semen filled straws. Semen was assessed for %motile cells, motility characteristics using computer-assisted semen analysis (CASA), plasma membrane integrity (%SYBR-14 positive stained spermatozoa) and acrosome integrity (%FITC-PNA positive stained spermatozoa). Spermatozoa cryopreserved using the Freeze Control CL3000 system (maximum rate of 6 degrees C/min) exhibited reduced post-thaw viability (14.2+/-2.8% mean plasma membrane intact spermatozoa) when compared to both the KS1.7 and Watson freezers (optimal rate of 40 degrees C/min) (18.4+/-3.2 and 25.7+/-3.7% mean plasma membrane intact spermatozoa, respectively). Differences in motility characteristics were observed between spermatozoa cryopreserved at 40 degrees C/min with the Watson apparatus preserving a larger proportion of sperm with progressive motility. Cooling curves in the CL3000 and KS1.7 were interrupted by a pronounced increase in temperature at -5 degrees C that corresponded with the latent heat of fusion released with ice crystal formation. This temperature change was significantly reduced in the cooling curves produced by the Watson freezer. These findings suggest that preserving spermatozoa using the Watson freezer improved post-thaw semen quality, with regard to sperm motility characteristics. Furthermore, that post-thaw semen viability was enhanced by minimising temperature fluctuations resulting from the release of the latent heat of fusion at ice crystal formation.     

Application of artificial insemination technique to eupyrene and/or apyrene sperm in Bombyx mori

The silkworm, Bombyx mori, has a dimorphic sperm system. The eupyrene sperm is the sperm to fertilize eggs and the apyrene sperm plays a crucial role for assisting fertilization. Heat-treated (33 degrees C for 96h) Daizo (DH) males, one of the strains in the silkworm, produce only eupyrene sperm, while in triploid males only apyrene sperm are functional. Though both types of males are found to be sterile, double copulation of the two males with a single female greatly increases fertility. Here we examined the fertilizing ability of eupyrene and apyrene sperm by means of an artificial insemination technique previously established in B. mori. Neither the eupyrene sperm collected from DH males, nor the apyrene sperm from triploid males have the ability to fertilize eggs. Artificial insemination with the mixture of eupyrene and apyrene sperm leveled up the frequency of fertilized eggs to more than 80%. When cryopreserved DH sperm (eupyrene sperm) were subjected to the same experiment, more than 95% fertilized eggs were obtained. These results confirmed that apyrene sperm play an important and indispensable role in fertilization in B. mori. Separate collection of functional eupyrene sperm and functional apyrene sperm and success of fertilization by means of the artificial insemination technique are applicable for further studies to elucidate the function of apyrene sperm.     

Characteristics of Iberian red deer (Cervus elaphus hispanicus) spermatozoa cryopreserved after storage at 5 degrees C in the epididymis for several days

The aim of this study was to assess the influence of prolonged cold storage of Iberian red deer epididymides on post-thaw sperm characteristics. Thirty-seven pairs of testes, with attached epididymides, were collected during November and December. Spermatozoa from one of each of the pairs were immediately recovered, evaluated and frozen (control group). The remaining epididymides were cooled to 5 degrees C and stored for 12, 24, 48, 72 and 96 h (experimental groups), after which spermatozoa were collected and frozen as in the control group. After thawing, sperm motility, membrane and acrosome integrities, mitochondrial function and DNA damage were evaluated. The motility of spermatozoa stored in the epididymis for up to 96 h did not decrease significantly (P>0.05) but, after cryopreservation, a decline in sperm motility was seen in spermatozoa stored for 48 h, or later. A slower decrease in sperm membrane and acrosome integrities after cryopreservation were seen as storage time progressed. Some differences were seen when different methods were used to assess the same sperm parameter although changes followed similar patterns. This was the case for acrosome integrity (phase contrast microscopy versus fluorescent lectin) or membrane integrity (hypo-osmotic swelling test or nigrosin-eosin stain versus propidium iodide). We conclude that frozen-thawed spermatozoa of Iberian red deer recovered from epididymides stored at 5 degrees C have a good sperm quality (including motility) during less than 48 h of storage for most of the sperm parameters assessed.