Evaluation of calcium-free Tyrode's sperm capacitation medium for use in bovine in vitro fertilization

Our objective was to determine if a bovine sperm capacitation technique, developed with zona-free hamster oocytes, could be used for the in vitro fertilization of in vitro matured bovine zona-intact oocytes. Bovine cumulus-enclosed primary oocytes from 2- to 5-mm follicles were matured in tissue culture Medium 199 containing Earle's salts and bicarbonate and supplemented with 10% fetal calf serum, FSH (10 micrograms/ml), and estradiol-17 beta (1.5 microgram/ml) for 24 h at 37 degrees C under paraffin oil. Ejaculated bovine sperm, washed thrice in bovine serum albumin-saline (pH 7.6) and capacitated for 4 h in Ca(++)-free Tyrode's medium (pH 7.6), were diluted to 2 x 10(6) sperm/ml in Medium 199 supplemented with 10% fetal calf serum. Oocytes were added (10/500 microliters droplet) to this medium containing the capacitated sperm, freeze-thawed killed sperm, or no sperm and incubated for 8 h before transfer to fresh medium and then incubated for 40 h. At the end of each incubation, a portion of the oocytes were stained and evaluated for development or fertilization. After 24 h of culture, 49% of the oocytes had matured (metaphase II). Fertilization rates were 55.6% after exposure of all oocytes to Ca(++)-free Tyrode's capacitated sperm and 82.5% if only metaphase II oocytes were selected. The parthenogenetic controls were negative (1.4% and 0%). Therefore, the Ca(++)-free Tyrode's sperm capacitation technique can be used for bovine in vitro fertilization studies.     

Induction of bovine sperm capacitation by TEST-yolk semen extender

Ejaculated bull semen was diluted 1:10 in the TEST-yolk buffer, cooled slowly to 4 degrees C, and stored for up to 48 h. Aliquots were taken at 0, 4, 8, 16, 24, and 48 h and washed once or three times in bovine serum albumin-saline and the sperm pellets resuspended in this saline. Fertilization of zona-free hamster oocytes was used to assess sperm capacitation. Motility differed between samples washed once or three times (53.7 vs. 21.7%). Motility was highest at 4 h storage but did not differ between 16, 24, or 48 h of storage. More sperm without intact acrosomes were found at 4 h than at 0 h, but the percentage did not change further until after 24 h. Penetration of oocytes was not different between sperm washed once or three times (28.5 vs. 26.9%). No penetration occurred at 0 h, and highest penetration rates occurred at 4 and 8 h of storage (32.1 and 33.4%). Penetration rates at 16, 24, and 48 h were not different (25.3, 25.2, 22.5%). In conclusion, storage of bull sperm in TEST-yolk buffer for 4 to 48 h resulted in capacitation. Even though capacitation was induced by 4 h, at least 71% of the sperm population had not undergone an acrosome reaction by 48 h of storage. This may explain why penetrability was maintained over this period.     

In vitro maturation of bovine cumulus enclosed primary oocytes and their subsequent in vitro fertilization and cleavage

Cumulus enclosed primary oocytes from 2 to 4-mm bovine follicles were matured in vitro in Minimum Essential Medium containing follicle-stimulating hormone (0, .1, 1, 10, 50, or 100 micrograms/ml) or human chorionic gonadotropin (0, .1, 1, or 10 IU/ml) for 48 h at 37 degrees C under paraffin oil. Cumulus mass expansion comparable to that seen in vivo occurred in 18% of the control oocytes, 39% of those cultured in human chorionic gonadotropin, and 56% of those cultured in follicle-stimulating hormone. The optimum follicle-stimulating hormone concentration for cumulus expansion was 1 microgram/ml, and this was then used to mature oocytes individually or in groups of 5 for in vitro fertilization. Ejaculated bovine semen, extended 1:10 with yolk-TES-Tris extender and stored 24 to 48 h at 4 degrees C, was warmed, washed once with Minimum Essential Medium, and 500,000 motile sperm/ml were used to inseminate the matured oocyte-cumulus cell complexes. Criteria for fertilization was cleavage to the two-cell stage 48 h after insemination. Oocytes, inseminated individually, cleaved with a frequency of 5%, whereas 15% of those inseminated in groups of 5 cleaved, perhaps as the result of cumulus factors enhancing capacitation. The cleavage rate for the parthenogenetic control with killed spermatozoa was 0%. Therefore, primary oocytes matured in vitro to secondary oocytes were successfully fertilized in vitro and cleaved to at least the two-cell stage in the Minimum Essential Medium. Individual differences between bulls in ability to fertilize in vitro were noted.     

Disruption of nuclear maturation and rearrangement of cytoskeletal elements in bovine oocytes exposed to heat shock during maturation

Meiotic maturation in mammalian oocytes is a complex process which involves extensive rearrangement of microtubules, actin filaments and chromosomes. Since cytoskeletal elements are sensitive to disruption by heat shock, a series of experiments were performed to determine whether physiologically relevant heat shock disrupts the progression of the oocyte through meiosis, fertilization and zygote formation. Cumulus-oocyte complexes were cultured at 38.5, 40.0 or 41.0 degrees C for the first 12 h of maturation. Incubation during the last 10 h of maturation and 18 h after fertilization was at 38.5 degrees C and in 5% (v/v) CO2 for both treatments. Examination of the cytoskeleton and the chromosome organization in matured oocytes revealed that oocytes matured at 38.5 degrees C were mostly at metaphase II (MII) stage, while the majority of heat-shocked oocytes were blocked at the first metaphase (MI), first anaphase or first telophase stages. A subset of heat-shocked oocytes possessed misshapen MI spindles with disorganized microtubules and unaligned chromosomes. A higher percentage of TUNEL-positive oocytes was noted for oocytes matured at 41.0 degrees C. Addition of 50 nmol/l sphingosine 1-phosphate to maturation medium blocked the effect of heat shock on progression through meiosis and apoptosis and increased the proportion of oocytes matured at 41.0 degrees C that were at MII. Following insemination, a high percentage of heat-shocked oocytes were unfertilized, while the majority of the control zygotes were fertilized and had two visible pronuclei. In conclusion, heat shock disrupts nuclear maturation and induces apoptosis. These alterations are likely to be involved in the mechanism underlying heat-shock-induced disruption of oocyte capacity for fertilization and subsequent development.     

Identification of the capacitating agent for bovine sperm in egg yolk-TEST semen extender

Bovine sperm can be capacitated in egg yolk-TEST buffer. To determine what constituent of the buffer was responsible, ejaculated semen was diluted 1:10 at 37 degrees C with the following 20% egg yolk (vol/vol)-containing buffers: TES-Tris, TES-tetramethylammonium hydroxide, taurine-Tris, citric acid-Tris, citrate, egg yolk salts, egg yolk proteins Tris, and citrate-taurine. Buffers were pH 7.6 and 321 to 325 mOsmol/kg. Extended semen was cooled slowly to 4 degrees C and stored 8 h. Sperm taken at 0 and 8 h were washed in pH 7.6 bovine serum albumin-saline and assessed for motility and capacitation using zona-free hamster eggs. Sperm motilities at 0 and 8 h were similar (60 to 73%) in all extenders except citric acid-Tris (54%) and egg yolk proteins Tris (15%). Bull sperm, stored 8 h in egg yolk-TEST, became capacitated. Because sperm storage in egg yolk-citrate did not result in penetration, both egg yolk and citrate were ruled out as capacitating agents. Capacitating activity resided in the TES and Tris molecules. The TES molecule contains a Tris component and this capacitated bull sperm. The TES molecule also contains a taurine component. However, taurine was not a capacitating agent for bull sperm. In conclusion, both TES- and Tris-containing buffers, alone or together (TEST), were equally effective in capacitating bull sperm.     

Effect of urea during in vitro maturation on nuclear maturation and embryo development of bovine cumulus-oocyte-complexes

High concentrations of urea in reproductive tract fluids are detrimental to bovine reproduction. Therefore, in experiment 1, the effect of 6 mM urea on nuclear maturation of cumulus-oocyte-complexes (COC) collected from abattoir ovaries was studied. After 4, 8, 12, 16, 20, and 24 h of in vitro maturation, the nuclear stages of samples of the COC were determined. During the first 8 h of maturation, germinal vesicle breakdown and chromosome condensation, resulting in the metaphase I stage, occurred at higher rates in the presence of urea. Segregation of the chromatids and extrusion of the polar body seemed to be impaired in the presence of urea, resulting in a higher percentage of oocytes arrested in metaphase I or telophase, and a lower percentage of oocytes in metaphase II after 24 h of maturation. Overall, nuclear progression of COC matured in the presence of urea differed from COC matured in control medium. In experiment 2, COC were matured for 24 h either in the presence or absence of 6 mM urea followed by in vitro fertilization and culture. After fertilization, a sample of the COC was fixed and stained to determine the fertilization rate. The cleavage rate was determined 3 d after start of maturation, and the stage of embryonic development was recorded 7 and 9 d after start of maturation. Based on cultured oocytes, urea in the maturation medium decreased the subsequent percentage of fertilization, cleavage, and development on d 7 and 9 (43.2, 56.1, 14.8, and 18.2%, respectively for urea vs. 64.1, 68.8, 22.4, and 23.9%, respectively for the control group). Embryonic development as a percentage of cleaved oocytes was not significantly affected by urea. Therefore, negative effects of urea were evident primarily during oocyte maturation and fertilization.     

Effect of osmolality and glycosaminoglycans on motility, capacitation, acrosome reaction, and in vitro fertilizability of bovine ejaculated sperm

Bovine ejaculated semen was placed in a modified Tyrode's medium with albumin, lactate, and pyruvate. The sperm were washed three times and subjected to nine treatment in a 3 X 3 factorial arrangement. Treatments consisted of osmolality (exposure to 380 mOsmol/kg medium for 5 min, exposure to 340 or 295 mOsmol/kg medium for the entire incubation period), and the presence or absence of glycosaminoglycans (100 micrograms/ml chondroitin sulfate A or 10 micrograms/ml heparin). Sperm were examined at 4.5 h, 8 to 9 h, and 24 to 25 h of incubation (37 degrees C, 5% CO2, and 95% air). Heparin caused head-to-head agglutination of sperm, raised the percent sperm without seminal antigens over the acrosome (capacitated) by 20% at 4.5 h, and doubled the percent of acrosome-reacted sperm. However, this stimulation did not improve in vitro fertilizability. Chondroitin sulfate A tended to maintain motility, but did not affect capacitation or the acrosome reaction, possibly due to glucose inhibition. Both high osmolality treatments tended to reduce motility, especially after 24 h of incubation when the 340 osmolality treatment reduced motility by 14% over the 295 treatment. No consistent effect on capacitation was observed. The 340 and 380 osmolality treatments induced 8.6 and 6.1% more acrosome reactions by 24 h than the 295 treatment. The 340 mOsmol/kg treatment yielded insignificantly higher in vitro fertilization rates, as evidenced by development of zygotes to the two-cell stage. Lack of statistical significance was due to high variation with in vitro fertilization rates.     

Lysis of oocytes by bovine sperm and seminal plasma

This study examined the lytic activity of bovine seminal plasma on zona-free oocytes commonly used to assess bovine capacitation. Exposure of hamster oocytes (intact or zona-free) to undiluted seminal plasma resulted in lysis within 5 min. With intact oocytes, 1:5 to 1:20 seminal plasma resulted in swelling of the oocytes. With zona-free oocytes, seminal plasma (1:0 to 1:1000) resulted in lysis within 1 min to 3 h depending on dilution. Heating seminal plasma to inactivate complement did not reduce lytic activity, but boiling destroyed it. Lytic activity was present in seminal plasma from vasectomized bulls and in seminal vesicle fluid. After elution of seminal plasma through Sephadex G-200, lytic activity was only associated with the fraction containing proteins of 200,000 to 45,000 dal. Lytic activity remained with washed capacitated bull sperm only when 10(7) sperm/ml or more were coincubated with zona-free oocytes at 37 degrees C for 3 h. In conclusion, both bovine seminal plasma and capacitated sperm were lytic in the zona-free hamster oocyte assay. The results may explain why so few sperm are normally found at the site of fertilization.     

Individual variation for in vitro fertilization success in dairy bulls

Individual semen samples from 29 bulls in routine artificial breeding service were tested for their capability to achieve in vitro fertilization. Ejaculated semen was diluted, .1 ml of semen in 2 ml of a modified Tyrode's medium with an osmolality of 340 mOsmol/kg, washed thrice, incubated 3 h at 37 degrees C before being used for in vitro fertilization, or incubated 4 h and 8 h before assessment of motility, capacitation, and acrosome integrity. The degree of variability in percentage of oocytes fertilized was assessed along with several factors that might contribute to this variation. Variation among bulls was not significantly different. Variation from one replicate to another was high. Variation was found in motility, capacitation, and frequency of acrosome reaction, but these variables were not significantly correlated to fertilization rate in vitro.     

Developmental competence in vivo and in vitro of in vitro-matured equine oocytes fertilized by intracytoplasmic sperm injection with fresh or frozen-thawed spermatozoa

This study was undertaken to evaluate the development of equine oocytes in vitro and in vivo after intracytoplasmic sperm injection (ICSI) with either fresh or frozen-thawed spermatozoa, without the use of additional activation treatments. Oocytes were collected from ovaries obtained from an abattoir and oocytes classified as having expanded cumulus cells were matured in M199 with 10% fetal bovine serum and 5 microU FSH ml(-1). After 24-26 h of in vitro maturation, oocytes with a first polar body were selected for manipulation. Fresh ejaculated stallion spermatozoa were used for the experiment after swim-up for 20 min in sperm-Tyrode's albumen lactate pyruvate. Frozen-thawed spermatozoa from the same stallion were treated in a similar way. Spermatozoa were immobilized and injected into the oocytes using a Piezo drill. Presumptive zygotes were cultured in G1.2 medium for 20 or 96 h after the injection was administered, or were transferred to the oviducts of recipient mares and recovered 96 h later. In addition, bovine oocytes with first polar bodies were injected with the two types of stallion spermatozoa and fixed 20 h after injection to examine pronuclear formation. Fertilization rate (pronucleus formation and cleavage) at 20 h after injection of spermatozoa was not significantly different between fresh and frozen-thawed sperm groups in either equine or bovine oocytes. Pronucleus formation after injection of spermatozoa into bovine oocytes was significantly higher than that for equine oocytes (P < 0.05). There were no significant differences in cleavage rate or average number of nuclei at 96 h between equine oocytes injected with fresh or frozen-thawed spermatozoa. However, embryos developed in vivo for 96 h had a significantly higher number of nuclei in both sperm treatments compared with those cultured in vitro. These results indicate that good activation rates may be obtained after injection of either fresh or frozen-thawed equine spermatozoa without additional activation treatment. Injection of frozen-thawed equine spermatozoa results in similar embryo development to that obtained with fresh equine spermatozoa. In vitro culture of equine zygotes in G1.2 medium results in a similar cleavage rate but reduced number of cells compared with in vivo culture within the oviduct. Bovine oocytes may be useful as models for assessing sperm function in horses.     

Induction of final maturation by sperm penetration in canine oocytes

In contrast to oocytes of most mammals, the canine oocyte is at the germinal vesicle stage at ovulation. Moreover, the bitch is receptive to mating while immature oocytes are present in the oviducts. The aims of this study were to examine the influence of fertilization in immature oocytes on the resumption of meiosis, and the modification of both male and female chromatin in fertilized oocytes. Canine cumulus-oocyte complexes collected from routine ovariectomies were cultured in medium 199 with 20% fetal calf serum for 24 h, incubated in the same medium with fresh semen for 24 h, washed, cultured for a further 24 h and fixed. Control oocytes were cultured in the same medium but without spermatozoa for 24, 48 or 72 h. After fixation, chromatin was stained with propidium iodide and examined using laser scanning confocal microscopy. The data indicate that sperm penetration can occur in immature canine oocytes and that it induces resumption of meiosis. After 72 h of culture, the percentage of oocytes at the germinal vesicle stage was significantly lower in fertilized oocytes (40% versus 60.3% for control oocytes; P < 0.05) and the percentage of oocytes beyond metaphase I was significantly greater in fertilized oocytes (28.3% metaphase I and II, and two pronuclei versus 10.2% metaphase I and II for control oocytes; P < 0.01). Observation and measurement of the area of chromatin in fertilized oocytes showed an overall parallel condensation-decondensation of both female and male chromatin from the germinal vesicle stage to the pronuclear stage.     

Effect of washing and capacitating media pH on bull sperm motility, acrosome integrity, and ability to penetrate zona-free hamster oocytes

Bovine-ejaculated sperm were washed thrice in bovine serum albumin-saline media, pH 7.2 to 8.4, and incubated at 37 degrees C in Ca++-free Tyrode's media. pH 7.2 to 8.4, for 0, 2, 4, 6, and 8 h. Motility was highest when sperm were washed in pH 7.2 medium and incubated in pH 8.0 or 8.4 media. Motility remained above 50% until 8 h. Washing in pH 7.6, 8.0, or 8.4 media induced more acrosome reactions after incubation than washing at pH 7.2. Percentage of acrosome-reacted sperm increased at each successive time period. Sperm penetrated more oocytes at 4, 6, and 8 h when wash medium pH was fixed at 7.2 and capacitating media pH was raised at .4 unit increments from 7.2 to 8.4. When sperm were washed in pH 7.2 medium, the postincubation penetration rates peaked at 8 h. With wash media of pH 7.6, 8.0, or 8.4, the postincubation penetration rates peaked at 4 h and then gradually declined. In conclusion, the most effective system for capacitating bull sperm was a pH 7.6 wash followed by capacitation in pH 7.6 medium for 4 to 8 h and this system resulted in the highest penetration rates. Wash media pH hastened capacitation but was not a capacitating agent.     

Exposure to a physiologically relevant elevated temperature hastens in vitro maturation in bovine oocytes

The objective of this study was to evaluate nuclear (progression to metaphase II) and cytoplasmic (translocation of cortical granules to the oolemma) maturation in control (38.5° C) and heat-stressed (41.0° C) oocytes. Hoechst staining indicated that a similar proportion of control and heat-stressed oocytes progressed to metaphase II. More heat-stressed oocytes had type III cortical granule distribution suggesting that heat stress accelerated cytoplasmic maturation. The kinetics of nuclear maturation was examined in a second experiment in which a higher proportion of heat-stressed oocytes progressed to metaphase I by 8 h and arrested at metaphase II at 16 and 18 h after placement into maturation medium. However, differences related to maturation temperature were no longer apparent by 21 h. Heat-induced alterations in kinetics of nuclear and cytoplasmic maturation prompted a third experiment to evaluate if earlier insemination of heat-stressed oocytes ameliorates heat-induced reductions in development. A significant temperature × insemination time interaction was noted when evaluating blastocyst development. Blastocyst development was reduced when heat-stressed oocytes were inseminated with sperm 24 h after placement into maturation medium compared with controls. In contrast, blastocyst development was similar to controls when heat-stressed oocytes were inseminated at 19 h. Based on this interaction, earlier insemination in vitro prevented heat-induced reductions in oocyte development. Collectively, these studies suggest a cumulative effect of heat stress to hasten in vitro maturation in bovine oocytes.     

Factors affecting developmental competence of equine oocytes after intracytoplasmic sperm injection

This study was conducted to evaluate the effect of initial cumulus morphology (expanded or compact) and duration of in vitro maturation (24, 30 or 42 h) on the developmental competence of equine oocytes after intracytoplasmic sperm injection (ICSI). The effect of manipulation temperature (room temperature vs 37 degrees C) at the time of ICSI and concentration of glucose (0.55 vs 5.5 mM) during embryo culture was also investigated. The nuclear maturation rates of expanded (Ex) oocytes were significantly (P < 0.001) higher than those of compact (Cp) oocytes at all maturation times (61-72 vs 23-25% respectively). Forty-eight hours after ICSI of mature Ex oocytes, the rate of cleavage with normal nuclei was significantly (P < 0.05) higher for oocytes matured for 24 h than for those matured for 30 or 42 h (73 vs 57-59% respectively). For Cp oocytes, the morphologic cleavage rates for oocytes matured for 30 h were significantly higher (P < 0.05) than for those matured for 24 or 42 h (86 vs 55-61% respectively). The overall proportion of embryos having more than four normal nuclei at 48 h culture was significantly higher (P < 0.05) for Cp than for Ex oocytes. Manipulation temperature did not affect development of embryos from Ex or Cp oocytes at 96 h after ICSI. Culture in high-glucose medium significantly increased morphologic cleavage of Cp, but not Ex, oocytes (P < 0.05). Embryos from Cp oocytes had a significantly higher average nucleus number after 96-h culture than did embryos from Ex oocytes. These data indicate that developmental competence differs between Ex and Cp equine oocytes, and is differentially affected by the duration of maturation and by composition of embryo culture media.     

Retinol improves development of bovine oocytes compromised by heat stress during maturation

The objectives of this study were to evaluate: 1) effects of a physiologically relevant elevated temperature on in vitro development of maturing oocytes, 2) effects of retinol on in vitro development of maturing oocytes, and 3) effects of retinol to improve development of oocytes compromised by an elevated temperature. Bovine oocytes were matured for 24 h at 38.5 or 41.0 degrees C (first 12 h) in 0 or 5 microM retinol. After insemination, cleavage and blastocyst development were assessed on d 3 and 8, respectively. Temperature, retinol, and their interaction were included in the statistical model. Culture of oocytes at 41.0 degrees C decreased the proportion of 8- to 16-cell embryos and increased that of 2-cell embryos. In addition, culture at 41.0 degrees C decreased the ability of oocytes to develop to the blastocyst stage. Blastocysts derived from oocytes cultured at 41.0 degrees C had fewer total nuclei. In 3 of the 7 experimental replicates, effects of 41.0 degrees C to reduce blastocyst development were minimal (difference in the development of the control vs. heat stress group was <20%). To provide a more precise test of our hypothesis (retinol administration may improve development of oocytes compromised by heat stress), data were analyzed, including only those replicates (n = 4) in which heat stress reduced development to blastocyst >20%. When this was done, a significant temperature x retinol interaction was noted. The addition of retinol to the maturation medium prevented heat-induced reductions in development of oocytes to blastocyst stage. Results indicate that retinol may protect oocytes from some of the deleterious effects of heat stress.     

Acrosomal integrity and capacitation are not influenced by sperm cryopreservation in the giant panda

Sperm cryopreservation and artificial insemination are important management tools for giant panda breeding and the preservation of extant genetic diversity. This study examined the influence of freeze-thawing on sperm function, specifically capacitation. Sperm from nine giant pandas were assessed before and after rapid (- 40 and - 100 degrees C/min) cryopreservation by incubation in HEPES-buffered Ham's F10 medium with and without the capacitation accelerators, 3-isobutyl-1-methylxanthine (IBMX) and dibutyryl cyclic AMP (dbcAMP). At 0, 3 and 6 h of exposure, aliquots were assessed for sperm motility traits and capacitation, defined as the proportion of sperm with intact acrosomes following exposure to solubilised zonae pellucidae (ursid or felid) or calcium ionophore subtracted from the proportion of sperm with intact acrosomes before exposure. Although mean+/-S.E.M. sperm motility post-thaw (56.1 +/- 3.9% at 0 h) was less (P < 0.05) than pre-freeze (71.7 +/- 6.0%), there was no difference (P > 0.05) in the proportion of acrosome-intact sperm (fresh, 93.0 +/- 1.7% versus cryopreserved-thawed, 81.7 +/- 4.7% at 0 h). Incidence of capacitation was greater (P < 0.05) in fresh sperm incubated with capacitation accelerators IBMX and dbcAMP (9 h: 50.9 +/- 1.1) compared with fresh sperm incubated without accelerators (9 h: 41.2 +/- 1.1%). Frozen-thawed sperm preincubated without accelerators underwent capacitation (49.6 +/- 1.1%) to a greater extent (P < 0.05) compared with these fresh counterparts. Thawed samples with (9 h: 45.9 +/- 1.4%) and without accelerators (9 h: 41.2 +/- 1.1%) did not differ (P > 0.05) during the 9-h incubation. We conclude that giant panda spermatozoa (1) undergo capacitation in vitro with or without chemical accelerators and (2) withstand a rapid cryopreservation protocol, including retaining normal acrosomal integrity and functional capacitation ability.     

Benefit of FSH priming of women with PCOS to the in vitro maturation procedure and the outcome: a randomized prospective study

The aim of this study was to determine whether the rates of in vitro oocyte maturation, fertilization and cleavage, as well as implantation rate and pregnancy rate, could be improved by low-dose priming with FSH in vivo before retrieval of immature oocytes in patients with polycystic ovary syndrome (PCOS). From March 1998 to June 2000, a total of 28 women underwent 36 completed treatment cycles, randomized sequentially in one of two groups. Women in group 1 (n = 12 cycles) received no stimulation and women in group 2 (n = 24 cycles) received 150 iu recombinant FSH day(-1) for 3 days, initiated on day 3 after menstruation. Aspiration was performed transvaginally between day 9 and day 17 in the unstimulated group and on day 8 or day 9 in the FSH-primed group after FSH deprivation for 2 or 3 days. All cumulus-enclosed oocytes of healthy appearance were matured in culture medium (TCM-199) in vitro for 28-36 h before intracytoplasmic sperm injection (ICSI). After oocyte retrieval the women were given oestradiol (6 mg day(-1)) and progesterone administration (300 mg day(-1)) was initiated 2 days later. Suitable embryos (maximum two embryos) were transferred on day 3 after ICSI. The percentage of oocytes reaching metaphase II was significantly higher (P < 0.05) in the FSH-primed group (59%, 92/156) compared with the non-primed group (44%, 36/81). There were no significant differences in the rates of oocyte fertilization and cleavage between these groups. No pregnancies were obtained in group 1 (0%, 0/12), whereas seven clinical pregnancies were obtained in group 2 (29%, 7/24) (P < 0.05). In group 2, 37 embryo transfers resulted in eight implantations (21.6%). Three healthy singleton children have been born at term; the remaining pregnancies ended with spontaneous abortions in the first trimester. These results indicate that priming with recombinant FSH before harvesting of immature oocytes from patients with PCOS may improve the maturational potential of the oocytes and the implantation rate of the cleaved embryos.     

Activation of Akt (protein kinase B) stimulates metaphase I to metaphase II transition in bovine oocytes

In somatic cells, the serine/threonine kinase Akt (or protein kinase B) was shown to contribute to processes linked to cellular growth, cell survival and cell cycle regulation. In contrast to these findings, the function of Akt during the meiosis of mammalian oocytes remains to be investigated. We analysed the phosphorylation pattern and the activity of Akt during meiotic maturation (transition from prophase I to metaphase II) of bovine oocytes. The oocytes were matured in vitro (IVM) for 0, 10 and 24 h to reach the germinal vesicle (GV), metaphase I (M I) and metaphase II (M II) stages respectively. The abundance and phosphorylation pattern of Akt was revealed by Western blotting using total Akt or phosphoso-Akt-specific antibodies. The activity of this particular kinase was determined by an in vitro kinase assay. Furthermore, functional properties were analysed by cultivating oocytes in the presence of the Akt inhibitor SH6. The results showed that the overall abundance of Akt did not change significantly during IVM. On the other hand, Akt became phosphorylated at Thr 308 and Ser 473, reaching its maximum at the M I phase. In the GV and M II stages, only low basal phosphorylation levels were observed on both sides. This phosphorylation profile corresponded strictly to the activity of the kinase. The cultivation of oocytes in the presence of the phosphatidylinositol analogue SH6 for 24 h showed that, with higher concentrations, up to 65% of the oocytes were arrested in the M I stage. This result indicated that Akt is involved in the M I/M II transition during the meiotic maturation of bovine oocytes. The physiological aspects of the Akt function will be discussed.     

Fertilization and activation currents in bovine oocytes

One of the first events that occurs at fertilization is a transient modification of the electrical properties of the oocyte plasma membrane. The whole-cell voltage clamp technique was used to demonstrate an outward ion current and a hyperpolarization of the plasma membrane after fertilization in bovine oocytes. These electrical events, together with measurement of internal calcium concentrations, were also recorded after injection with sperm factor and exposure to parthenogenetic activators, such as Ca(2+) ionophore, ethanol and thapsigargin. Experiments were carried out simultaneously in immature and in vitro matured oocytes. Significant differences were recorded in the activation current and hyperpolarization among oocyte activators and between immature and matured oocytes. However, outward ion current and Ca(2+) release showed similar dynamics. The injection of the calcium chelator EGTA completely abolished both ion current and hyperpolarization, indicating that these electrical events are calcium dependent. Addition of specific calcium releasers, such as 1,4,5-inositol trisphosphate (IP(3)) and caffeine, triggered ion activation current and hyperpolarization indicating that IP(3) and ryanodine receptors are active in both immature and matured oocytes. Different ion channel inhibitors were used to characterize the channels underlying outward currents. Only addition of rIberiotoxin caused a complete inhibition of the current, indicating the involvement of high conductance Ca(2+)-activated K(+) channels in generating activation current. In conclusion, these findings provide evidence that bovine oocyte activation is associated with Ca(2+)-dependent electrical events. Oocytes have the potential to react to different activators even when immature; however, oocyte maturation seems to increase sensitivity to physiological activators, such as spermatozoa and sperm factor, and chemicals, such as ethanol.     

Development of cultured bovine embryos after exposure to high temperatures in the physiological range

Embryonic development is inhibited by exposure of cultured embryos to high temperatures. However, culture temperatures used to demonstrate the effects of heat on development have been higher than the body temperatures experienced typically by heat-stressed cows. The aim of this study was to determine whether exposing bovine oocytes and embryos to temperatures characteristic of body temperatures of heat-stressed cows would affect embryonic development in vitro. The CO2 percentage of the gas phase was adjusted in all experiments to prevent pH changes in the medium caused by decreased solubility of CO2 at high temperatures. Fertilization of oocytes at 41.0 degrees C reduced cleavage rate and the percentage of oocytes that became blastocysts compared with at 38.5 degrees C. There was no deleterious effect of fertilization at 40.0 degrees C. When putative zygotes and two-cell embryos were exposed to a range of temperatures from 38.5 to 41.0 degrees C for 3, 6, 9 or 12 h, heat shock reduced the number that developed to the blastocyst stage but only after exposure to 41.0 degrees C for 9 or 12 h. In addition, it was tested whether low O2 tension would reduce the detrimental effects of heat shock. The deleterious effect of 41.0 degrees C was not dependent upon oxygen content or the gas mixture used for culture (5% versus 20.95% O2), indicating that the deleterious effects of heat shock did not depend upon a high O2 environment. In the final experiment, embryos were exposed to 24 h fluctuations in temperature designed to mimic the rectal temperatures of cows exposed to heat stress. Exposure of embryos to this pattern of temperatures starting after fertilization reduced development when embryos were exposed to this environment for 8 days but not when embryos were exposed for 1 day only. These findings indicate that embryonic development can be disrupted by a short-term severe or a prolonged mild heat shock and that the effects of heat shock are not artefacts of changes in pH or high oxygen tension.