P. Holm

Open pulled straw (OPS) vitrification: A new way to reduce cryoinjuries of bovine ova and embryos

Although cryopreservation of certain mammalian embryos is now a routine procedure, considerable differences of efficiency exist depending on stage, species and origin (in vivo or in vitro produced). Factors that are suspected to cause most of these differences are the amount of the intracellular lipid droplets and the different microtubular structure leading to chilling injury as well as the volume/surface ratio influencing the penetration of cryoprotectants. A new approach, the Open Pulled Straw (OPS) method, which renders very high cooling and warming rates (over 20,000°C/min) and short contact with concentrated cryoprotective additives (less than 30 sec over −180°C) offers a possibility to circumvent chilling injury and to decrease toxic and osmotic damage. In this paper we report the vitrification by the OPS method of in vitro produced bovine embryos at various stages of development. Embryos cryopreserved from Day 3 to Day 7 (Day 0 = day of fertilization) exhibited development into blastocysts at rates equivalent to those of control embryos; even those cryopreserved on Day 1 or 2 exhibited only somewhat reduced survival. Eighty‐one percent of Day 8 hatched blastocysts also survived the procedure. The method was also successfully used for bovine oocytes; of 184 vitrified oocytes, 25% developed into blastocysts after fertilization and culture for 7 days. Pregnancies were achieved following transfer after vitrification at both the oocyte and blastocyst stage. The OPS vitrification offers a new way to solve basic problems of reproductive cryobiology and may have practical impact on animal biotechnology and human assisted reproduction. Mol. Reprod. Dev. 51:53–58, 1998.

HIGH BOVINE BLASTOCYST DEVELOPMENT IN A STATIC IN VITRO PRODUCTION SYSTEM USING SOFAA MEDIUM SUPPLEMENTED WITH SODIUM CITRATE AND MYO-INOSITOL WITH OR WITHOUT SERUM-PROTEINS

We describe a bovine embryo culture system that supports repeatable high development in the presence of serum or BSA as well as under defined conditions in the absence of those components. In the first experiment, embryo development in SOF with amino acids (SOFaa), sodium citrate (SOFaac) and myo-inositol (SOFaaci) and with BSA or polyvinyl alcohol (PVA) was compared with that in a M199 granulosa cell co-culture (M199 co-culture). Subsequently, development and cell numbers of blastocysts cultured under defined conditions in SOFaaci with PVA (SOFaaci-PVA), or under undefined conditions in SOFaaci with 5% cow serum (SOFaaci-CS) or M199 co-culture were compared. The repeatability of culture results in SOFaaci-CS was checked by weekly replicates (n = 30) spread over 11 months. The viability of embryos developed in SOFaaci-PVA was estimated by transfer of morphologically good blastocysts (n = 10) to synchronized recipients. In the second experiment, the effect of omitting CS or BSA from IVM and IVM-IVF on subsequent embryo development in SOFaaci-PVA or in SOFaaci-CS was investigated. Blastocyst development in SOFaa-PVA, SOFaac-PVA, SOFaa-BSA and M199 was 16 +/- 3b, 23 +/- 2ab, 30 +/- 8a and 36 +/- 7a%, respectively (Pab < 0.05). Additional inclusion of myoinositol resulted in 42 +/- 1a% blastocysts in SOFaaci-PVA vs 19 +/- 3b% in SOFaac-PVA, 47 +/- 7a% in SOFaac-BSA, and 36 +/- 7a% in M199 co-culture, respectively (Pab < 0.01). In 30 replicates, the average cleavage and blastocyst rates of oocytes in SOFaaci-CS were 87 +/- 4 and 49 +/- 5%, respectively. Five normal calves were produced after transfer of 10 blastocysts developed in defined culture medium (i.e., SOFaaci-PVA). Defined IVM or IVM-IVF (i.e., in absence of CS and BSA) reduced cleavage rates (83 +/- 3 and 55 +/- 3% vs 90 +/- 1% in presence of CS; P < 0.01). Subsequent embryo development in SOFaaci-CS was not affected in either of these defined conditions. However, cleavage and blastocyst rates under completely defined IVP conditions were 54 +/- 7 and 19 +/- 4%, respectively. It was concluded that under defined culture conditions, addition of citrate and myo-inositol improved blastocyst development to rates comparable to those obtained with serum, BSA or co-culture and that the quality of blastocysts was not affected by the absence of serum or BSA. However, serum was essential during IVM/IVF for normal fertilization and subsequent high blastocyst development.

New method for culture of zona-included or zona-free embryos: the Well of the Well (WOW) system.

Culture of mammalian zygotes individually and in small groups results in lower developmental rates than culture of large groups. Zona‐free zygotes also have impaired developmental potential in current culture systems. This paper describes a new approach to resolve the problems, the Well of the Well (WOW) system. Small wells (WOWs) were formed in four‐well dishes by melting the bottom with heated steel rods. The WOWs were then rinsed, the wells were filled with medium, and the embryos were placed into the WOWs. To test the value of the WOW system a 3 × 3 factorial experiment was performed. Bovine presumptive zygotes were cultured from day 1 to day 7 (day 0: day of insemination) using three modules (single embryos, embryo groups of five, or single zona‐digested embryos) and three different culture systems (400 μl medium, 200 μl drops, or WOWs). An additional control group consisted of 40 to 50 embryos cultured in 400 μl medium. The WOW system resulted in higher blastocyst/oocyte rates for all three modules (single: 59%; group of five: 61%; single zona‐digested: 53%) than the culture in drops or in wells (P < 0.05 for all). The developmental rate was independent of the number of WOWs per well. The cell number of blastocysts cultured in the WOW system did not differ from that of the controls. Apart from its theoretical value in revealing the role of different factors influencing embryo development in vitro, the WOW system may have immediate practical consequences in certain areas of mammalian embryo production. Mol Reprod Dev 55:256–264, 2000.

The effect of media, serum and temperature on in vitro survival of bovine blastocysts after Open Pulled Straw (OPS) vitrification.

The recently introduced Open Pulled Straw (OPS) vitrification technique has successfully been used for cryopreserving porcine embryos as well as for bovine embryos and oocytes. The aim of this work is to investigate several factors on the in vitro survival of bovine blastocysts. In 5 experiments, a total of 862 in vitro produced blastocysts and expanded blastocysts was vitrified and warmed using the OPS technology, then cultured in vitro for an additional 3 days. The culture medium in Experiments 1 to 4 was SOFaa with supplements and 5% calf serum (CS). In Experiment 1, the replacement of TCM-199 + 20% CS with PBS + 20% CS in the holding medium during vitrification and warming did not result in significant differences in the re-expansion (92 vs 95%) and hatching rates (79 vs 72%). In Experiment 2, the PBS holding medium was supplemented with either 20% CS, 5 mg/mL bovine serum albumin (BSA) or 3 mg/mL polyvinylalcohol (PVA). Although the re-expansion rates did not differ (98, 95 and 93%, respectively), there was a decrease in the hatching rate after vitrification with PVA (77 and 78 vs 51%, respectively). In Experiment 3, the influence of temperature of equilibration media prior to and rehydration media after the vitrification was investigated. When the temperature of these media was adjusted to 20 degrees C instead of the standard 35 degrees C, both the re-expansion and the hatching rates decreased markedly. However, increasing the time of equilibration with the diluted cryoprotectant solution at 20 degrees C eliminated these differences. In Experiment 4, the ethylene-glycol and dimethyl sulfoxide cryoprotectant mixture was replaced with ethylene glycol-ficoll-trehalose solution. No difference in the re-expansion (89 vs 96%, respectively) or hatching rate (79 vs 84%, respectively) was detected. In Experiment 5, the vitrified-warmed blastocysts were cultured in SOFaa medium supplemented with 5% CS or 5 mg/mL BSA. Although the re-expansion rates were identical in the 2 groups (95%), the hatching rates were lower when embryos were cultured in BSA (71 and 47%, respectively). These findings indicated the possible broader application for OPS, as they demonstrated that the physical advantages of rapid cooling and warming may be accompanied by different chemical composition (holding media, cryoprotective additives) according to the requirements of the biological structure. Our study also shows the need for serum supplementation of the medium for hatching to occur after OPS vitrification.

Simplification of bovine somatic cell nuclear transfer by application of a zona-free manipulation technique.

Contemporary nuclear transfer techniques often require the involvement of skilled personnel and extended periods of micromanipulation. Here, we present details of the development of a nuclear transfer technique for somatic cells that is both simpler and faster than traditional methods. The technique comprises the bisection of zona-free oocytes and the reconstruction of embryos comprising two half cytoplasts and a somatic cell by adherence using phytohaemagglutinin-P (PHA) followed by an electropulse and subsequent culture in microwells (termed WOWs--well of the well). The development of the system was based on results using parthenogenetic and in vitro fertilized zygotes in order to (a) select the optimal primary activation agent that induced the lowest lysis rate but highest parthenogenetic blastocyst yield, (b) evaluate the quantity and quality of zona-free blastocysts produced in WOWs, and (c) establish any potential embryotoxic effects of PHA-P. The initial data indicated that, of calcium ionophore A23187, ionomycin, and electropulse treatments as primary activation agents, the two former were equally efficient even with reduced exposure times. WOW-culture of zona-free versus zona-intact zygotes were not different in either blastocyst yield (44.6 +/- 2.4% versus 51.8 +/- 13.5% [mean +/- SEM]) or quality (126.3 +/- 48.4 versus 119.9 +/- 32.6 total cells), and exposure of zygotes to PHA-P did not reduce blastocyst yields compared to vehicle control (40.8 +/- 11.6% versus 47.1 +/- 20.8% of cultured oocytes). Subsequent application of the optimized technique for nuclear transfer using nine different granulosa cell primary cultures (cultured in 0.5% serum for 5-12 days) generated 37.6 +/- 3.9% (11 replicates; range, 16.4-58.1%) blastocysts per successfully fused and surviving reconstructed embryo (after activation), and 33.6 +/- 3.7% blastocysts per attempted reconstructed embryo. Mean day 7 total blastocyst cell numbers from 5 clone families was 128.1 +/- 15.3. The ongoing pregnancy rate of recipients each receiving two nuclear transfer blastocysts is 3/13 (23.1%) recipients pregnant at 5 months after transfer. These results suggest that the zona-free nuclear transfer technique generates blastocysts of equivalent quantity and quality compared to conventional micromanipulation methods, requires less technical expertise, is less time consuming and can double the daily output of reconstructed embryos (even after taking into consideration the rejection of the half oocytes containing the metaphase plate).

Numerical Chromosome Errors in Day 7 Somatic Nuclear Transfer Bovine Blastocysts

Abstract Day 7 bovine somatic nuclear transfer (NT) embryos reconstructed from granulosa cells were examined for numerical chromosome aberrations as a potential cause of the high embryonic and fetal loss observed in such embryos after transfer. The NT embryos were reconstructed using a zona-free manipulation method: half-cytoplasts were made from zona-free oocytes by bisection, after which two half-oocytes and one granulosa cell (serum-starved primary culture) were fused together and activated. The NT embryos were cultured in modified synthetic oviductal fluid containing essential and nonessential amino acids, myoinositol, sodium citrate, and 5% cattle serum in microwells for 7 days, at which time nuclei from all blastocysts were extracted and chromosome aberrations were evaluated using dual-color fluorescent in situ hybridization with bovine chromosome 6- and 7-specific probes. Five embryo clone families, consisting of 112 blastocysts reconstructed from five different primary granulosa cell cultures, were examined. Overall, the mean chromosome complement within embryos was 86.9 ± 3.7% (mean ± SEM) diploid, 2.6 ± 0.5% triploid, 10.0 ± 3.1% tetraploid, and 0.5 ± 0.2% pentaploid or greater; the vast majority (>75%) of the abnormal nuclei were tetraploid. Completely diploid and mixoploid embryos represented 22.1 ± 4.5% and 73.7 ± 5.5%, respectively, of all clones. Six totally polyploid blastocysts, containing ≤91 nuclei, were recorded. The ploidy distributions (classified as 2N, 3N, 4N, and ≥5N chromosome complements, respectively) between two clone families were different (P < 0.01), as were blastocyst yields between other clone families (P < 0.01). Blastocyst yield was not correlated to % total ploidy error between clone families, but an inverse relationship (P < 0.01) between blastocyst total cell number and total % chromosome abnormality was observed within embryos. Categorization of the blastocysts into three quality grades (good, medium, and poor) and comparison of the distribution of ploidies when classified into 0%, 0.1–5.0%, 5.1–10.0%, 10.1–15.0%, and 15.1–100% errors within embryos indicated that medium- and poor-grade embryos were different (P < 0.05) from good-quality, in vitro-produced embryos. In a separate study, 11 different granulosa cell cultures (that did not correspond to those used for NT) were evaluated and found to possess only 0.23 ± 0.12% ploidy errors. These results demonstrate that 1) the percentage of ploidy errors in bovine NT blastocysts is inversely related to total blastocyst cell number, 2) the mixoploid condition is representative of the majority of embryos, 3) 100% polyploid NT blastocysts can exist, and 4) the ploidy errors seem not to be derived from the donor cells.

The submarine incubation system, a new tool for in vitro embryo culture: A technique report

Abstract In vitro culture of sensitive structures such as oocytes and preimplantation embryos requires a specific, stable environment (temperature, gas atmosphere and humidity levels). Most available carbon dioxide thermostates are not adequate for this purpose, as their large interior area is undivided and frequent opening of the doors required by the daily work disturbs equilibrium of the cultures kept inside. A new approach for overcoming this problem is described here. Tissue culture dishes containing embryos are individually wrapped in laminated foil bags nearly impermeable to carbon dioxide, oxygen and nitrogen and are filled with the desired gas mixture, then heat-sealed and submerged into a circulating temperature-adjusted water bath for the required culture period (up to 7 d). In this way, all wrapped culture dishes function as individual incubators (“submarines”). The advantages of this system are stability of temperature, humidity and gas mixture; quick recovery of these parameters after opening; flexibility in using different gas mixtures; safety; cost efficiency; reduced contamination risks; few problems with cleaning; easy transport. When transparent foil is used for wrapping, frequent microscopic observations are also possible without disturbing the gas atmosphere and humidity. Slightly elevated atmospheric pressure inside the foil bags (between 1 and 9 water cm) has no apparent deleterious effects on embryo development. Expired, sterile filtered human lung air containing 4% carbon dioxide and 16 to 17% oxygen expired into the bags was also found to sustain bovine embryo development. Thus, the culture system is also suitable for use under field conditions. To prove the efficiency of this incubation system, in vitro matured and fertilized bovine zygotes were cultured in TCM199 and calf serum on a granulosa cell monolayer using expired lung air in the submerged foil bags. The cumulative result of 25 identical replicates was 517 blastocysts from 1,052 oocytes (49%) at 8 d after fertilization. The Submarine Incubation System provides an alternative method for in vitro embryo production and/or culture of other sensitive tissues or cells.

Overall efficiency of in vitro embryo production and vitrification in cattle.

In 5 replicates a total of 719 immature oocytes recovered from 94 slaughterhouse-derived bovine ovaries were matured and fertilized in vitro, then cultured for 7 to 9 d on a granulosa cell monolayer in TCM 199 supplemented with calf serum. Of 338 blastocysts (47% of oocytes cultured), 301 were vitrified in Hepes/bicarbonate buffered TCM-199 medium, 20% calf serum and dimethylsulfoxide and ethylene glycol as the cryoprotectants. After thawing in 1 M sucrose and subsequent culture in vitro, 237 (79%) of the blastocysts re-expanded and 177 (59%) hatched. Re-expansion and hatching rates differed between the blastocysts vitrified on Day 7 and Day 8 (84 and 69% vs 70 and 41%, respectively). We conclude that the applied methods are relatively simple and inexpensive to use, with an overall efficiency of the in vitro production/vitrification procedure being 1.9 hatched blastocyst/ovary. Therefore, this system seems suitable for large-scale production of cryopreserved bovine embryos for various purposes.

Application of the Zona-Free Manipulation Technique to Porcine Somatic Nuclear Transfer

The recent demonstration of a successful zona-free manipulation technique for bovine somatic nuclear transfer (NT) that is both simpler and less labor intensive is of considerable benefit to advance the applications of this technology. Here, we describe that this method is also applicable to porcine somatic NT. Porcine cumulus oocyte complexes were matured in TCM-199 medium before sequential removal of the cumulus and zonae. Zona-free oocytes were bisected using a microknife, and the halves containing the metaphase plate (as determined by Hoechst 33342 staining) were discarded. Each half cytoplast was agglutinated to a single granulosa cell (primary cultures grown in 0.5% serum for 2-5 days prior to use) in phytohaemagglutinin-P. Subsequently, each half cytoplast-granulosa cell couplet was simultaneously electrofused together and to another half cytoplast. Reconstructed embryos were activated in calcium ionophore A23187 followed by DMAP and were then individually cultured in microwells in NCSU-23 medium. On day 7 after activation, blastocyst yield and total cell numbers were counted. Of 279 attempted reconstructed NT embryos, 85.0 +/- 2.8% (mean +/- SEM; n = 5 replicates) successfully fused and survived activation. The blastocyst rate (per successfully fused and surviving embryo) was 4.8 +/- 2.3% (11/236; range, 0-12.8%). Total blastocyst cell count was 36.0 +/- 4.5 (range, 18-58 cells). The blastocyst rate and total cell numbers of parthenogenetically activated and zona-free control oocytes propagated under the same conditions was 11.6 +/- 3.9% (35/335 embryos; n = 3 replicates) and 36.8 +/- 5.2, respectively. Developmentally halted embryos that could still be evaluated on day 7 possessed 54.4 +/- 2.3% (53/96 embryos; n = 3 replicates) anucleate blastomeres, the latter representing 53.5 +/- 6.6% of the blastomeres in such embryos. In conclusion, blastocyst yield was independent of activation efficiency and was likely reduced by insufficient nuclear remodeling, reprogramming, imprinting, or other effects. The data also suggest that fragmentation was a considerable problem that could conceivably contribute to halted development in a high proportion of embryos. The results indicate that the zona-free manipulation technique can be successfully applied to pig somatic NT. Although such zona-free early cleavage stage embryos cannot be transferred to recipients at present, this technique permits simplification of the NT technique for application in basic research, until pig nonsurgical blastocyst transfer becomes a realistic option.

Body dimensions and birth and organ weights of calves derived from in vitro produced embryos cultured with or without serum and oviduct epithelium cells.

Body dimensions, birth and organ weights of calves derived from embryos produced in 2 in vitro culture systems (modified SOFaa with 20% cattle serum and co-cultured with oviduct-epithelium cells [IVPserum, n=8], and modified SOFaa with 3 mg/mL PVA [IVPdefined, n=6]) were compared with calves originating from artificial insemination (AI, n=85). Three additional IVP calves were included which had been vitrified as mature oocytes by the open pulled straw (OPS) method, warmed, fertilized and cultured to the blastocyst stage in modified SOFaa with 5% cattle serum, then again OPS-vitrified and warmed prior to transfer (IVPops, n=3). At birth, gestation length and birth weights were registered for all calves. At 1 wk of age all 17 IVP and 7 of the AI calves were killed, and their body dimensions and organ weights recorded. Birth weight was higher for the IVPserum and IVPops calves than for AI control calves (kg +/- SEM: IVPserum 46.9+/-1.8, IVPops 50.6+/-2.4, AI 41.8+/-0.8; P < 0.002). There was no difference between IVP and AI calves regarding gestation length and no effect of culture conditions on body dimensions or organ weights, except for longer hind legs in IVPdefined calves compared with AI calves (cm +/- SEM: IVPdefined 93+/-2, AI 87+/-2; P < 0.04). The IVPops calves had an increased liver weight compared with AI and the other IVP calves (g +/- SEM: IVPops 1.457+/-59; AI 1,117+/-37; IVPserum 1,159+/-34, IVPdefined 1,073+/-39; P < 0.0003). It is concluded that in vitro culture of bovine embryos in the presence of serum and oviduct epithelium cells increased birth weight but not organ weight and body dimension in 1-wk-old calves. However, vitrification of the ova as oocyte and again as blastocysts increased birth weight and liver size. This possible effect of cryopreservation of oocytes on subsequent fetal development awaits further investigation.