Blastocysts from partial compaction morulae are not defined by their early mistakes

RESEARCH QUESTION

Is partial compaction during morula formation associated with an embryo's developmental ability and implantation potential?

DESIGN

Retrospective analysis of data from 196 preimplantation genetic testing for aneuploidy (PGT-A) cycles. Embryos starting compaction were grouped according to the inclusion or not of all the blastomeres in the forming morula (full compaction or partial compaction). The possible effect of maternal age and ovarian response on compaction was analysed. Morphokinetic characteristics, blastocyst formation rate, morphology and cytogenetic constitution of the obtained blastocysts were compared. Comparisons of reproductive outcomes after the transfer of euploid blastocysts from both groups were established. Finally, in a subset of embryos, the chromosomal constitution concordance of the abandoned cells and the corresponding blastocyst through trophectoderm biopsies was assessed.

RESULTS

A total of 430 embryos failed to include at least one cell during compaction (partial compaction group [49.3%]), whereas the 442 remaining embryos formed a fully compacted morula (full compaction group [50.7%]). Neither female age nor the number of oocytes collected affected the prevalence of partial compaction morulae. Morphokinetic parameters were altered in embryos from partial compaction morulae compared with full compaction. Although an impairment in blastocyst formation rate was observed in partial compaction morulae (57.2% versus 70.8%, P < 0.001), both chromosomal constitution (euploidy rate: partial compaction [38.4%] versus full compaction [34.2%]) and reproductive outcomes (live birth rate: partial compaction [51.9%] versus full compaction [46.2%]) of the obtained blastocysts were equivalent between groups. A high ploidy correlation of excluded cells-trophectoderm duos was observed.

CONCLUSIONS

Partial compaction morulae show a reduced developmental ability compared with full compaction morulae. Resulting blastocysts from both groups, however, have similar euploidy rates and reproductive outcomes. Cell exclusion might be a consequence of a compromised embryo development regardless of the chromosomal constitution of the excluded cells.

Induction of Transient Morula-Like Cells in Mice Through STAT3 Activation

Developing in vitro cell models that faithfully replicate the molecular and functional traits of cells from the earliest stages of mammalian development presents a significant challenge. The strategic induction of signal transducer and activator of transcription 3 (STAT3) phosphorylation, coupled with carefully defined culture conditions, facilitates the efficient reprogramming of mouse pluripotent cells into a transient morula-like cell (MLC) state. The resulting MLCs closely mirror their in vivo counterparts, exhibiting not only molecular resemblance but also the ability to differentiate into both embryonic and extraembryonic lineages. This reprogramming approach provides valuable insights into controlled cellular fate choice and opens new opportunities for studying early developmental processes in a dish.

Association of early cleavage, morula compaction and blastocysts ploidy of IVF embryos cultured in a time-lapse system and biopsied for genetic test for aneuploidy

IVF embryos have historically been evaluated by morphological characteristics. The time-lapse system (TLS) has become a promising tool, providing an uninterrupted evaluation of morphological and dynamic parameters of embryo development. Furthermore, TLS sheds light on unknown phenomena such as direct cleavage and incomplete morula compaction. We retrospectively analyzed the morphology (Gardner Score) and morphokinetics (KIDScore) of 835 blastocysts grown in a TLS incubator (Embryoscope+), which were biopsied for preimplantation genetic testing for aneuploidy (PGT-A). Only the embryos that reached the blastocyst stage were included in this study and time-lapse videos were retrospectively reanalysed. According to the pattern of initial cleavages and morula compaction, the embryos were classified as: normal (NC) or abnormal (AC) cleavage, and fully (FCM) or partially compacted (PCM) morulae. No difference was found in early cleavage types or morula compaction patterns between female age groups (< 38, 38-40 and > 40 yo). Most of NC embryos resulted in FCM (≅ 60%), while no embryos with AC resulted in FCM. Aneuploidy rate of AC-PCM group did not differ from that of NC-FCM group in women < 38 yo, but aneuploidy was significantly higher in AC-PCM compared to NC-FCM of women > 40 yo. However, the quality of embryos was lower in AC-PCM blastocysts in women of all age ranges. Morphological and morphokinetic scores declined with increasing age, in the NC-PCM and AC-PCM groups, compared to the NC-FCM. Similar aneuploidy rates among NC-FCM and AC-PCM groups support the hypothesis that PCM in anomalous-cleaved embryos can represent a potential correction mechanism, even though lower morphological/morphokinetic scores are seen on AC-PCM. Therefore, both morphological and morphokinetic assessment should consider these embryonic development phenomena.

Maternal Kdm2a-mediated PI3K/Akt signaling and E-cadherin stimulate the morula-to-blastocyst transition revealing crucial roles in early embryonic development

Histone methylation plays an essential role in oocyte growth and preimplantation embryonic development. The modification relies on histone methyl-transferases and demethylases, and one of these, lysine-specific demethylase 2a (Kdm2a), is responsible for modulating histone methylation during oocyte and early embryonic development. The mechanism of how Kdm2a deficiency disrupts early embryonic development and fertility remains elusive. To determine if maternally deposited Kdm2a is required for preimplantation embryonic development, the expression profile of Kdm2a during early embryos was detected via immunofluorescence staining and RT-qPCR. The Kdm2a gene in oocytes was specifically deleted with the Zp3-Cre/LoxP system and the effects of maternal Kdm2a loss were studied through a comprehensive range of female reproductive parameters including fertilization, embryo development, and the number of births. RNA transcriptome sequencing was performed to determine differential mRNA expression, and the interaction between Kdm2a and the PI3K/Akt pathway was studied with a specific inhibitor and activator. Our results revealed that Kdm2a was continuously expressed in preimplantation embryos and loss of maternal Kdm2a suppressed the morula-to-blastocyst transition, which may have been responsible for female subfertility. After the deletion of Kdm2a, the global H3K36me2 methylation in mutant embryos was markedly increased, but the expression of E-cadherin decreased significantly in morula embryos compared to controls. Mechanistically, RNA-seq analysis revealed that deficiency of maternal Kdm2a altered the mRNA expression profile, especially in the PI3K/Akt signaling pathway. Interestingly, the addition of a PI3K/Akt inhibitor (LY294002) to the culture medium blocked embryo development at the stage of morula; however, the developmental block caused by maternal Kdm2a loss was partially rescued with a PI3K/Akt activator (SC79). In summary, our results indicate that loss of Kdm2a influences the transcriptome profile and disrupts the PI3K/Akt signaling pathway during the development of preimplantation embryo. This can result in embryo block at the morula stage and female subfertility, which suggests that maternal Kdm2a is a potential partial redundancy with other genes encoding enzymes in the dynamics of early embryonic development. Our results provide further insight into the role of histone modification, especially on Kdm2a, in preimplantation embryonic development in mice.

MYC-MAX heterodimerization is essential for the induction of major zygotic genome activation and subsequent preimplantation development

In mouse preimplantation development, zygotic genome activation (ZGA), which synthesizes new transcripts in the embryo, begins in the S phase at the one-cell stage, with major ZGA occurring especially at the late two-cell stage. Myc is a transcription factor expressed in parallel with ZGA, but its direct association with major ZGA has not been clarified. In this study, we found that developmental arrest occurs at the two-cell stage when mouse embryos were treated with antisense oligonucleotides targeting Myc or MYC-specific inhibitors from the one-cell stage. To identify when MYC inhibition affects development, we applied time-limited inhibitor treatment and found that inhibition of MYC at the one-cell, four-cell, and morula stages had no effect on preimplantation development, whereas inhibitor treatment at the two-cell stage arrested development at the two-cell stage. Furthermore, transcriptome analysis revealed that when MYC function was inhibited, genes expressed in the major ZGA phase were suppressed. These results suggest that MYC is essential for the induction of major ZGA and subsequent preimplantation development. Revealing the function of MYC in preimplantation development is expected to contribute to advances in assisted reproductive technology.

Cryopreservation Protocols for Genetically Engineered Mice

Protocols for cryopreservation of mouse embryos and sperm are important for preserving genetically engineered mice (GEMs) used in research to study human development and diseases. Embryo cryopreservation is mainly carried out using either of two protocols: controlled gradual cooling or vitrification. Sperm cryopreservation protocols include two methodologies that are commonly referred to as JAX and CARD. Quality-control measures are necessary to ensure that GEMs are properly cryopreserved so that they can be retrieved for future use. An archiving system is also important in keeping proper records of frozen sperm and embryos. Frozen embryos and sperm are now preferred over live mice for shipping to distant locations. This article describes detailed protocols used in cryopreservation of mouse embryos and sperm, as well as their retrieval to live mice. © 2021 U.S. Government. Sperm cryopreservation Basic Protocol 1: JAX protocol for sperm cryopreservation Support Protocol 1: JAX protocol for making sperm cryopreservation medium Basic Protocol 2: JAX protocol for IVF of mouse sperm Alternate Protocol 1: Modified CARD protocol for sperm cryopreservation Support Protocol 2: CARD protocol for making sperm cryopreservation medium Alternate Protocol 2: CARD protocol for IVF of mouse sperm Embryo cryopreservation Basic Protocol 3: Cryopreserving and thawing 2-cell embryos Alternate Protocol 3: Cryopreserving and thawing 8-cell to morula-stage embryos Surgical transfer of embryos Basic Protocol 4: Infundibulum transfer of 2-cell to morula-stage embryos.

Prevention of hatching of porcine morulae and blastocysts by liquid storage at 20 °C

Vitrification is the ideal method for long-lasting storage of porcine embryos. However, both strict airline regulations for transport of liquid nitrogen dewars and the technical problems experienced when vitrified embryos are transferred using non-surgical procedures have led to the introduction of alternative storage methods, such as preserving embryos in liquid state. This study evaluated whether a pH-stable medium containing high concentrations of either foetal calf serum (FCS; 50%) or BSA (4%) combined with storage at temperatures of 17 °C or 20 °C maintained in vivo-derived morulae and blastocysts alive and unhatched (a sanitary requirement for embryo transportation) during 72 h of storage. Neither FCS nor BSA supplements were able to counteract the negative effect of low temperatures (17 °C) on embryonic survival after storage. At 20 °C, the protective effect of FCS or BSA depended on embryo stage. While FCS successfully arrested embryo development of only blastocysts, BSA arrested the development of both morulae and blastocysts. Over 80% of BSA arrested embryos restarted development by conventional culture and progressed to further embryonic stages, including hatching. In conclusion, porcine morulae and blastocysts can survive and remain unhatched during at least 72 h when stored at 20 °C in a BSA-containing medium.

Natural cycle versus hormone replacement therapy cycle in frozen-thawed embryo transfer

OBJECTIVES

To compare implantation rates, clinical pregnancy rates and live birth rates associated with natural and hormone replacement therapy (HRT) methods of endometrial preparation in frozen-thawed embryo transfer (FET) cycles.  Methods: The results of 108 natural cycles and 224 HRT cycles of FET transfers performed in a private in vitro fertilization (IVF) center between June 2013 and August 2015 were  retrospectively compared with respect to implantation rate, clinical pregnancy rate, and live birth rate. Results: A total of 144 embryos were transferred in 108 natural cycles and 357 embryos were  transferred in 224 HRT cycles. No statistically significant differences were found in the implantation rate (p=0.796), clinical pregnancy rate per cycle (p=0.900), clinical pregnancy rate per transferred embryo (p=0.283), live birth rate per cycle (p=0.821), or live birth rate per transferred embryo (p=0.481) between the 2 groups.  Conclusion: This study showed no difference between the implantation rate, clinical pregnancy rate or live birth rate between the natural cycle group and HRT cycle group. These results may provide clinicians with more freedom to individualize patient treatment, particularly with respect to the selection of the endometrial preparation method, if these results are supported by large randomized controlled studies in the future.

Functional amyloidogenesis in immunocytes from the colonial ascidian Botryllus schlosseri: Evolutionary perspective

Cytotoxic morula cells (MCs) and phagocytes are the circulating immunocytes of the colonial ascidian Botryllus schlosseri: Both these cells can synthesise amyloid fibrils, supporting the idea that physiological amyloidogenesis is involved in inflammation and modulation of immune responses. Intriguingly, amyloid of B. schlosseri immunocytes is made of two different proteins. MCs, the first cells to sense non-self and involved in the allorejection reaction between contacting genetically incompatible colonies, use melanin encapsulation as the principal method to fight non-self. They release amyloid fibrils formed by p102 protein that allow the packaging and deposit of melanin and other toxic molecules nearby the invader or in the contact region of incompatible colonies. Phagocytes release amyloid-based extracellular traps when challenged with microbes: their amyloid fibrils harbour BsAPP, an orthologue of the vertebrate amyloidogeneic protein APP. This strategy of immune response, present also in human neutrophils, allows phagocytes to block and engulf bacteria and fungi.

Colony-stimulating factor 2 enhances the developmental competence of yak (Poephagus grunniens) preimplantation embryos by modulating the expression of heat shock protein 70 kDa 1A

Colony-stimulating factor 2 (CSF₂) is known to promote the development and survival of rodents and ruminants preimplantation embryos; however, the effect of CSF₂ on yak embryos has not been reported. The objective of this study was to investigate the effects of CSF₂ on the developmental competence of yak embryos cultured in vitro in modified synthetic oviduct fluid (mSOF) medium and on the expression pattern of heat shock protein 70 kDa 1A (HSPA1A). In each experiment, cumulus-oocyte complexes (COCs) were matured in vitro and fertilized with frozen-thawed semen. Zygotes were treated with varying concentrations of CSF₂ (0, 10, 50, 100 ng/mL) until day 8 after fertilization. Embryo development was calculated as the percentage of oocytes that formed embryos at the 2-cell, 4-cell, 8-cell, 16-cell, morula and blastocyst stages. The total cell numbers (TCN) per blastocyst and their allocation to the inner cell mass (ICM) and trophectoderm (TE) lineages were determined using differential CDX2 staining. The expression of HSPA1A was examined by quantitative real-time PCR (qRT-PCR) and immunochemistry to determine the mRNA and protein levels. The results showed that treatment with 50 ng/mL CSF₂ significantly (P < 0.05) increased the rate of blastocyst formation (19.01% versus 9.93%) and the TCN per blastocyst (96.94 versus 81.41) compared to the control group. However, no significant differences were observed in the other stages of development. qRT-PCR analysis confirmed that treatment with 50 ng/mL CSF₂ significantly (P < 0.05) inhibited the expression of HSPA1A mRNA in blastocysts cultured in vitro relative to the control group, but there were no significant differences between the other treatment groups. Immunocytochemical analysis confirmed that HSPA1A protein accumulation was gradually reduced in yak blastocysts cultured in 0, 10, 100 or 50 ng/mL CSF₂, however, no significant differences were observed between the 10 and 100 ng/mL treatments (P > 0.05). In conclusion, these findings demonstrate that CSF₂ inhibits the expression of HSPA1A to facilitate yak blastocyst formation and increase cell numbers.

A review of the mechanisms and evidence for typical and atypical twinning

The mechanisms responsible for twinning and disorders of twin gestations have been the subject of considerable interest by physicians and scientists, and cases of atypical twinning have called for a reexamination of the fundamental theories invoked to explain twin gestations. This article presents a review of the literature focusing on twinning and atypical twinning with an emphasis on the phenomena of chimeric twins, phenotypically discordant monozygotic twins, mirror-image twins, polar body twins, complete hydatidiform mole with a coexistent twin, vanishing twins, fetus papyraceus, fetus in fetu, superfetation, and superfecundation. The traditional models attributing monozygotic twinning to a fission event, and more recent models describing monozygotic twinning as a fusion event, are critically reviewed. Ethical restrictions on scientific experimentation with human embryos and the rarity of cases of atypical twinning have limited opportunities to elucidate the exact mechanisms by which these phenomena occur. Refinements in the modeling of early embryonic development in twin pregnancies may have significant clinical implications. The article includes a series of figures to illustrate the phenomena described.

Effects of partial or complete laser-assisted hatching on the hatching of mouse blastocysts and their cell numbers

BACKGROUND

It is still debatable whether a full-thickness assisted hatching (AH) is better than the partial zona thinning. In this research, we used a mouse model to study the effect of partial and complete laser-AH on the rate of completely hatched blastocyst and their cell numbers.

METHODS

In experiment 1, mouse morulae had 0, 1, 2 or 3 full-thickness openings of 10 microns created in the zona pellucida with an infrared laser beam. In the second experiment, 0, 1 and 2 openings of 20 microns were studied. In the third experiment, a full-thickness opening of 20 microns or quarter-thinning of the zonal circumference to a depth of 90% was compared with non-AH controls.

RESULTS

No difference in blastocyst formation was found in laser-treated groups and in the controls. In experiment 1, the rate of completely hatched blastocysts was significantly lower than the controls. In experiment 2 when the size of the opening was increased, blastocysts completely hatched at a significantly higher rate than that in the controls. In experiment 3, the rate of completely hatched blastocysts was the highest in the full-thickness group. Cell numbers in completely hatched blastocysts from both AH groups were significantly fewer than those in the controls.

CONCLUSIONS

Full-thickness opening resulted in a higher rate of completely hatched blastocysts than quarter zonal-thinning and controls, but the cell numbers were significantly decreased.

Nonsurgical embryo transfer device compared with surgery for embryo transfer in mice

The use of a murine nonsurgical embryo transfer (NSET) device had been described previously for the transfer of blastocysts, morulae, DNA-microinjected embryos, and embryonic stem cell-containing embryos to create genetically modified mice. However, physiologic effects of the NSET device and traditional surgical methods had not been compared directly. Here we used electrocardiography and fecal corticosterone levels to monitor pseudopregnant mice that underwent anesthesia only, the NSET procedure with or without anesthesia, or surgery. These procedures were performed without the use of actual embryos, to focus on effects of the procedures themselves rather than on any physiologic effects due to the deposition of embryos. As compared with surgery and anesthesia, the NSET procedure was associated with less fluctuation in cardiac rhythm and lower levels of the stress biomarker fecal corticosterone. These results indicate that use of the NSET device avoids these physi- ological perturbations as well as other disadvantages of surgery (for example, postoperative pain and need for postoperative analgesia) and therefore provides a valuable refinement of existing mouse embryo transfer procedures.

Combination of fertility preservation strategies in young women with recently diagnosed cancer

BACKGROUND/AIMS

The study describes clinical management and outcomes of currently available fertility preservation techniques in a set of 154 young female cancer patients.

METHODS

Patients in reproductive age with newly diagnosed cancer were offered embryo or oocyte cryopreservation, ovarian tissue cryopreservation and the administration of GnRH analogues during chemotherapy. Particular attention was given to the technical aspects and clinical application of these fertility preservation techniques.

RESULTS

During the study period (2004-2009), 154 young female cancer patients were offered fertility preservation counseling. Patient's average age was 29.4 years and average parity was 0.7 children. Administration of GnRH analogues (n = 123, 79.9%) and ovarian tissue cryopreservation (n = 15, 9.7%) were the most commonly used fertility preservation strategies. In 20 cases (16.1%), the combination of several fertility preservation techniques was offered to individually selected patients.

CONCLUSIONS

Combination of fertility preservation techniques gives young cancer patients the best chance for future fertility and should be concentrated in specialized centers.

Functional heterogeneity of embryonic stem cells revealed through translational amplification of an early endodermal transcript

ES cells are defined as self-renewing, pluripotent cell lines derived from early embryos. Cultures of ES cells are also characterized by the expression of certain markers thought to represent the pluripotent state. However, despite the widespread expression of key markers such as Oct4 and the appearance of a characteristic undifferentiated morphology, functional ES cells may represent only a small fraction of the cultures grown under self-renewing conditions. Thus phenotypically "undifferentiated" cells may consist of a heterogeneous population of functionally distinct cell types. Here we use a transgenic allele designed to detect low level transcription in the primitive endoderm lineage as a tool to identify an immediate early endoderm-like ES cell state. This reporter employs a tandem array of internal ribosomal entry sites to drive translation of an enhanced Yellow Fluorescent Protein (Venus) from the transcript that normally encodes for the early endodermal marker Hex. Expression of this Venus transgene reports on single cells with low Hex transcript levels and reveals the existence of distinct populations of Oct4 positive undifferentiated ES cells. One of these cells types, characterized by both the expression of the Venus transgene and the ES cells marker SSEA-1 (V(+)S(+)), appears to represent an early step in primitive endoderm specification. We show that the fraction of cells present within this state is influenced by factors that both promote and suppress primitive endoderm differentiation, but conditions that support ES cell self-renewal prevent their progression into differentiation and support an equilibrium between this state and at least one other that resembles the Nanog positive inner cell mass of the mammalian blastocysts. Interestingly, while these subpopulations are equivalently and clonally interconvertible under self-renewing conditions, when induced to differentiate both in vivo and in vitro they exhibit different behaviours. Most strikingly when introduced back into morulae or blastocysts, the V(+)S(+) population is not effective at contributing to the epiblast and can contribute to the extra-embryonic visceral and parietal endoderm, while the V(-)S(+) population generates high contribution chimeras. Taken together our data support a model in which ES cell culture has trapped a set of interconvertible cell states reminiscent of the early stages in blastocyst differentiation that may exist only transiently in the early embryo.

Conventional freezing, straw, and open-pulled straw vitrification of mouse two pronuclear (2-PN) stage embryos

Little is known on the cryopreservation of mouse pronuclear (PN) stage embryos. In the present experiment the mouse 2-PN stage embryos were cryopreserved by conventional freezing, straw, or open-pulled straw (OPS) vitrificaiton methods. The conventional freezing solution was 1.5 mol/L ethylene glycol (EG), and vitrification solutions were EFS30 (30% EG, Ficoll, and sucrose), EFS40 (40% EG, Ficoll, and sucrose), EDFS30 (15% EG, 15%dimethyl sulfoxide [DMSO], Ficoll, and sucrose), or EDFS40 (20% EG, 20%DMSO, Ficoll, and sucrose). The blastocyst rate of 2-PN stage embryos cryopreserved by conventional method (30.4%) was lower than those vitrified by straw method with EDFS (56.9% to 69.1%), by OPS method (66.0% to 85.7%), and that of control (80.8%) (P < 0.05). With a given vitrificaiton solution EFS30, EFS40, EDFS30, or EDFS40, the blastocyst rate of embryos vitrified by the OPS method (66.7%, 66.0%, 85.7%, or 76.9%) was higher than that of those vitrified by the straw method (46.8%, 43.8%, 69.1%, or 56.9%) (P < 0.05). When mouse 2-PN-stage embryos were vitrified with EDFS30 by straw or OPS method, the highest blastocyst rate was achieved (69.1% or 85.7%) and was similar to that of the control, respectively. The embryos transfer results revealed that the full-term development of blastocysts derived from 2-PN stage embryos vitrified by OPS method with EDFS30 (19.9%) was similar to that of the control (23.5%), and higher than that of those cryopreserved by conventional freezing (9.3%) (P < 0.05). The present research demonstrates that the OPS method, especially with EDFS30, is more effective in cryopreserving mouse 2-PN embryos.

Induction of p16INK4A mediated by beta-catenin in a TCF4-independent manner: implications for alterations in p16INK4A and pRb expression during trans-differentiation of endometrial carcinoma cells

Excessive beta-catenin is considered to contribute to tumor progression by inducing transcription of cell cycle-related genes such as cyclin D1 and c-myc. In contrast, our recent studies demonstrated that beta-catenin could inhibit cell proliferation through activation of p14(ARF)/p53/p21(WAF1) pathway during trans-differentiation toward morular phenotype of endometrial carcinoma (Em Ca) cells. Here, we focused on associations with alterations in p16(INK4A) and pRb expression during this process. In clinical cases, p16(INK4A) immunoreactivity was found to frequently overlap with nuclear beta-catenin accumulation in small-sized morules and surrounding glandular carcinomas (Sur-Ca), demonstrating a significant positive correlation (r = 0.447, p < 0.0001) overall, while the immunoreactions showed stepwise decrease in enlarged morules, despite persistent accumulation of beta-catenin and p21(WAF1) in nuclei. Immunoreactivity for both total pRb and its phosphorylated form was apparently decreased in all morules as compared to Sur-Ca lesions, with a significantly positive correlation. In cell lines, transcriptional activation of p16(INK) (4A) promoter by active form beta-catenin, as well as p21(WAF1), occurred through the region from -385 to -280 bp relative to the translation start site, in a TCF4-independent manner. Moreover, cell proliferation was accompanied with phosphorylation of pRb and increased p16(INK4A) expression, while its inhibition by serum starvation caused decreased expression of total pRb but not p16(INK4A), resulting in high relative amounts of the latter. These findings indicate that induction of p16(INK4A) mediated by nuclear beta-catenin and p21(WAF1), along with loss of pRb expression, may be important for initial steps during trans-differentiation of Em Ca cells. In addition, its down-regulation is associated with progression of lesions.

Embryo development of prepubertal goat oocytes fertilised by intracytoplasmic sperm injection (ICSI) according to oocyte diameter

The aim of this study was to evaluate embryo development of prepubertal goat oocytes fertilised by ICSI according to their diameter. Three experiments were carried out to achieve this objective. In all experiments, oocytes were matured in TCM199 supplemented with hormones, cysteamine and serum for 27 h at 38.5 degrees C. In Experiment 1, we studied the nuclear stage of goat zygotes produced by conventional ICSI and IVF using 20 nM ionomycin plus 10 microM heparin as sperm treatment. A group of Sham-injected oocytes was used as control. Results showed differences in the percentage of 2 PN (zygotes with male and female pronuclei) between ICSI, IVF and Sham (40.9, 26.6 and 3.0%, respectively; P<0.05). In Experiment 2, we evaluated the embryo development of prepubertal goat oocytes produced by ICSI and IVF after 192 h of culture in SOF medium. The percentage of morulae plus blastocysts obtained was higher in the ICSI than in the IVF group (13.4 and 5.1%, respectively; P<0.05). In Experiment 3, IVM-oocytes were classified in four groups depending on their diameter (Group A: <110 microm; Group B: 110-125 microm; Group C: 125-135 microm; Group D: >135 microm), fertilised by ICSI and cultured for 192 h. Results showed a positive correlation between oocyte diameter and embryo development (morulae+blastocysts: Group A: 0%; Group B: 6.2%; Group C: 46.4% and Group D: 33.3%). In conclusion, sperm treatment with ionomycin plus heparin using the conventional ICSI protocol improved fertilisation rates in comparison to IVF. Oocytes smaller than 125 microm were unable to develop up to blastocyst stage.

In vitro production of bovine embryos using sex-sorted sperm

The objective of this study was to investigate the suitability of sex-sorted sperm for producing viable in vitro embryos for subsequent transfer into recipient cows and heifers on commercial dairy farms. From August 2002 to June 2003, ovaries were collected from 104 producer-nominated Holstein donor cows on seven Wisconsin farms via colpotomy or at slaughter. Oocytes (N=3526) were aspirated from these ovaries, fertilized 22+/-0.2h later, and cultured to the morula or blastocyst stage. The fluorescence-activated cell sorting ("Beltsville") approach was used to produce (primarily) X-bearing sperm from the ejaculates of three young Holstein sires, and 365 transferable embryos were produced. On average, 3.6+/-0.3 (means+/-S.E.M.) transferable embryos were produced per donor, including 1.4+/-0.2 (Grade 1), 1.5+/-0.2 (Grade 2), and 0.7+/-0.1 (Grade 3) embryos. Number of usable oocytes per donor (33.9+/-3.3) and percent cleavage (51.1+/-1.9) were significant predictors of the number of blastocysts that developed. Mean conception rates for the resulting in vitro embryos were 34.2+/-1.6% in yearling heifer recipients and 18.2+/-0.7% in lactating cow recipients. Additional oocytes (N=3312) from ovaries of anonymous donors (N unknown) collected at a commercial abattoir were fertilized using unsorted sperm, and the percentage of these that developed to blastocyst stage (20.1+/-2.9) was greater (P<0.05) than the corresponding percentage (12.2+/-2.3) achieved with sex-sorted sperm using oocytes (N=1577) from the same source. In summary, we inferred that in vitro embryo production may be a promising application of sex-sorted sperm in dairy cattle breeding, but that the biological causes of impaired embryo development in vitro and compromised conception rates of transferred embryos should be further investigated.

Survival and ultrastructure of gene-microinjected rabbit embryos after vitrification

Morphological signs of injury and subsequent regeneration following vitrification of either rabbit gene microinjected (Gene-Mi) or intact in vitro cultured embryos derived from in vivo fertilized eggs were evaluated by post-warming recovery in culture and analysed by transmission electron microscopy (TEM). The percentages of vitrified/warmed Gene-Mi embryos that reached the blastocyst stage (69%) and hatched (57%) did not differ significantly from those of intact embryos (78% and 56%, respectively). In contrast, in vitro development of embryos to the blastocyst stage among non-vitrified intact (96%) and Gene-Mi (90%) embryos compared with both the intact vitrified (78%) and Gene-Mi vitrified (69%) groups, as well as hatching rate (94%, 90% vs 56%, 57%, respectively) varied significantly (p<0.001). Observations by TEM showed that the vitrified/warmed intact or Gene-Mi embryos without post-culture displayed severe degenerative changes among their cells. During 24 h of culture a proportion of the embryos were able to regenerate and complete the compaction process. Nevertheless the signs of previous injury were retained, such as swollen cytoplasmic organelles and remaining cellular debris in the perivitelline space. These observations indicate that the procedure of gene Mi does not siginificantly compromise embryo tolerance to cryopreservation and post-warming developmental ability. Severe changes in embryo morphology, observed at the ultrastructural level, can be attributed to a direct influence of the vitrification process rather than to the Mi procedure itself.

Cryopreserved Morulae can be used to Efficiently Generate Germline-transmitting Chimeras by Blastocyst Injection

The production of chimeric mice is a complex process, requiring the careful coordination of tissue culture cell growth, production of a large number (30-75) of competent blastocysts and the availability of appropriately timed pseudo pregnant female mice. Failure at any of these steps can impinge upon the rapid production of chimeras. One potential improvement for the efficient generation of chimeric mice would be the utilization of cryopreserved embryos suitable for injection. C57Bl/6 morulae were frozen using a standard 2-step protocol with ethylene glycol as the cryopreservation agent. We determined that cryopreserved morulae could thaw, culture to blastocyst stage in KSOM media and survive injection at rates equivalent to control embryos. Cryopreserved morulae were also equivalent to controls at all later stages in the process of production of chimeric mice, including birth rate, percentage chimerism of resulting animals and ability to produce germline progeny. Hence, cryopreservation of morulae for blastocyst injection is a suitable option to enhance the efficiency of chimeric mouse generation.

Comparison between intracytoplasmic sperm injection and in vitro fertilisation employing oocytes derived from prepubertal goats

The objective of this study was to compare the embryo development of prepubertal goat oocytes after ICSI and IVF procedures. Three experiments were carried out to achieve this objective. (1) An analysis of the efficiency of ICSI with or without chemical stimulation (5 microM ionomycin for 5 min and 2 mM 6-DMAP for 4 h). In this experiment, Sham and parthenogenetic oocyte groups were used as controls. (2) According to the results from experiment 1, we investigated the nuclear stage of zygotes obtained with ICSI and IVF, and their further embryo development. (3) We compared two embryo culture media (G1.3/G2.3 and TCM199 with granulosa cells) on the embryo development of zygotes obtained from ICSI and IVF procedures. Experiment 1 demonstrated that prepubertal goat oocytes needed additional chemical stimulation, after conventional ICSI, to form zygotes with male and female pronuclei (2PN). Experiment 2 showed that significantly higher percentages of -zygotes were found in ICSI-oocytes than IVF-oocytes (40.0 and 25.1%, respectively; P < 0.005). The percentage of embryos obtained and developed beyond the 8-cell stage was significantly higher for ICSI than for IVF and parthenogenetic embryos (22.8, 10.3 and 3.8%, respectively; P < 0.05). Experiment 3 showed that G1.3/G2.3 medium improved the embryo development of ICSI- and IVF-oocytes compared to co-culture with granulosa cells in TCM medium. The highest percentage of embryo development beyond 8-16 cells was found in ICSI-oocytes cultured in G1.3/G2.3 medium. However, a reduced number of morulae were found in this study.

Establishment of pregnancies after serial dilution or direct transfer by vitrified equine embryos

Experiments were conducted to determine viability of equine embryos in vivo after vitrification. In a preliminary study (Experiment 1), embryos were exposed in three steps to vitrification solutions containing increasing concentrations of ethylene glycol and glycerol (EG/G); the final vitrification solution was 3.4 M glycerol + 4.6 M ethylene glycol in a base medium of phosphate-buffered saline. Embryos were warmed in a two-step dilution and transferred into uteri of recipients. No pregnancies were observed after transfer of blastocysts >300 microm (n = 3). Transfer of morulae or blastocysts < or = 300 microm resulted in four embryonic vesicles (4/6, 67%). In a second experiment, embryo recovery per ovulation was similar for collections on Day 6(28/36, 78%) versus Days 7 and 8(30/48, 62%). Embryos < or = 300 and >300 microm were vitrified, thawed and transferred as in Experiment 1. Some embryos < or = 300 microm were also transferred using a direct-transfer procedure (DT). Embryo development rates to Day 16 were not different for embryos < or = 300 microm that were treated as in Experiment 1(10/22, 46%) or transferred by DT (16/26, 62%). Embryos > 300 microm (n = 19) did not produce embryonic vesicles.

Stages of normal development in the medaka Oryzias latipes

Unfertilized eggs of Oryzias latipes were artificially inseminated and incubated at 26+/-1 degrees C. Careful observation of the process of embryonic development by light microscopy allowed division of the process into 39 stages based on diagnostic features of the developing embryos. The principal diagnostic features are the number and size of blastomeres, form of the blastoderm, extent of epiboly, development of the central nervous system, number and form of somites, optic and otic development, development of the notochord, heart development, blood circulation, the size and movement of the body, development of the tail, membranous fin (fin fold) development, and development of such viscera as the liver, gallbladder, gut tube, spleen and swim (air) bladder. After hatching, development of the larvae (fry) and young can be divided into six stages based on such diagnostic features as the fins, scales and secondary sexual characteristics.

EGF and IGF-I as predictors of ICSI outcome in human preimplantation embryo cultures

PURPOSE OF INVESTIGATION

Detection of EGF and IGF-I in human embryo cultures and their effect on ICSI outcome.

METHODS

Collection of culture medium from embryos of 50 women under ICSI program. EGF and IGF-I were measured via enzyme immunoassay.

RESULTS

ICSI outcome was independent of age, infertility years, FSH, LH, prolactine and E2. EGF detection was higher in 48- (32%), than in 72-hour embryos (14%) (p < 0.001). EGF negative embryos are likely to be arrested at the morula stage (p < 0.001) and are associated with poor pregnancy rates (p < 0.05). IGF-I was undetected in 48-hour embryos.

CONCLUSIONS

For the first time human embryos were surveyed from fertilization until embryo transfer, regarding EGF and IGF-I production. IGF-I is not a predictor of ICSI outcome. EGF is present in one-third of human embryo cultures at 48 hours, but this ratio wanes at the morula stage. EGF negative embryos are associated with lower pregnancy rates.

Vitrification of Mouse Embryos at Various Stages by Open-Pulled Straw (OPS) Method

This study was performed to pursue the optimal condition for the cryopreservation of mouse morulae by a two-step OPS method and to investigate the feasibility of the optimal condition for vitrification of embryos at other developmental stages. First, the mouse morulae were vitrified in OPS using one-step procedure-that is, embryos were vitrified after direct exposure to EDFS30 (15% ethylene glycol (EG), 15% dimethyl sulfoxide (DMSO), Ficoll and sucrose), or two-step method-that is, embryos were first pretreated in 10%E + 10%D (10% EG and 10% DMSO in mPBS) for 30 sec, then exposed to EDFS30 for 15 to 60 sec, respectively. After vitrification and warming, the embryos were morphologically evaluated and assessed by their development to blastocysts, expanded/hatched blastocysts, or to term after transfer. The result showed that all the vitrified-warmed morulae had similar blastocyst rate compared to that of control (91.7% vs. 100%), and the highest developmental rate to expanded blastocysts (100%) or hatched blastocysts (62.3%) was observed when the morulae were pretreated with 10%E + 10%D for 0.5 min, exposed to EDFS30for 25 sec before vitrification and warming in 0.5 M sucrose for 5 min. After transfer, the survival rate (33.1%) in vivo of the vitrified morulae was higher (P > 0.05) than that of the fresh embryos (24.6%). Secondly, embryos at different stages were cryopreserved and thawed following the above program. Most (93.4 to 100%) of the embryos recovered after vitrification were morphologically normal at all the developmental stages. The blastocyst rates of the vitrified one-cell (52.5 to 66.7%) and the two-cell (63.3 to 68.9%) embryos were lower (P < 0.05) than those of the vitrified four-cell embryos (81.7 to 86.4%), the eight-cell embryos (90.0 to 93.3%), morulae (96.7 to 100%), and the expanded blastocysts rate (98.3 to 100.0%) of the vitrified early blastocysts. The highest survival rate in vivo of vitrified embryos were from the early blastocysts (40.4%), which was similar to that of fresh embryos (48.6%). The data demonstrate that the optimal protocol for the cryopreservation of morulae was suitable for the four-cell embryos to early blastocyst stages and that the early blastocyst stage is the most feasible stage for mouse embryo cryopreservation under our experimental conditions.

Donor and recipient rat strains affect full-term development of one-cell zygotes cultured to morulae/blastocysts

The present study was conducted to examine the developmental potential to offspring of rat embryos cultured from 1-cell to morula/blastocyst stage. Pronuclear zygotes from Wistar x Wistar or (SD x DA) x Wistar strains were cultured in modified rat 1-cell embryo culture medium (mR1ECM) for 96 h in 5% CO(2) in air at 37 C. The proportion of the 3-way cross hybrid zygotes developing into morula/blastocyst stage (74%) was higher than that of the Wistar zygotes (66%). Day-5 morulae/blastocysts developed in vitro were transferred into Day-3 or -4 pseudopregnant recipients of Wistar or SD x DA strain. The transfer of cultured embryos resulted in the birth of offspring at 13-59%, while that of non-cultured control blastocysts showed birth rates of 35-65%. The best offspring rate of cultured embryos (59%) was obtained when the hybrid 1-cell zygotes were cultured in mR1ECM medium and transferred into the 2-days earlier uteri of SD x DA recipients. These results suggest that genetic background of recipients as well as donors is a possible factor affecting full-term development of rat morulae/blastocysts derived from 1-cell stage zygotes cultured in vitro.

Expression of early development-related genes in bovine nuclear transferred and fertilized embryos

Cloning efficiency following somatic cell nuclear transfer is very low. In order to obtain insights into this problem, mRNA expression patterns of early development-related genes in nuclear transferred embryos were compared with those obtained from in vivo and in vitro fertilization. Semiquantitative reverse-transcription polymerase chain reaction assay was used to compare the gene expression of, the cell adhesion protein E-cadherin, interleukin-6, heat-shock protein 70.1 and bos taurus apoptosis regulator box-a (Bax). The relative abundances of glucose transporter-1, E-cadherin and interleukin-6 were significantly (P < 0.05) higher in in vitro fertilized morulae than in vivo derived morulae. Transcription of the gene encoding octamer-binding transcription factor 4 was higher in blastocysts obtained from in vivo fertilization than in those from in vivo blastocysts. The transcript for Bax was markedly upregulated in blastocysts derived from in vitro production and nuclear transfer procedures compared with in vivo fertilization. These results suggest that alterations in mRNA expression of early development genes are more associated with in vitro culture condition than the nuclear transfer procedure itself.

Stages of normal development in the medaka Oryzias latipes

Unfertilized eggs of Oryzias latipes were artificially inseminated and incubated at 26+/-1 degrees C. Careful observation of the process of embryonic development by light microscopy allowed division of the process into 39 stages based on diagnostic features of the developing embryos. The principal diagnostic features are the number and size of blastomeres, form of the blastoderm, extent of epiboly, development of the central nervous system, number and form of somites, optic and otic development, development of the notochord, heart development, blood circulation, the size and movement of the body, development of the tail, membranous fin (fin fold) development, and development of such viscera as the liver, gallbladder, gut tube, spleen and swim (air) bladder. After hatching, development of the larvae (fry) and young can be divided into six stages based on such diagnostic features as the fins, scales and secondary sexual characteristics.

The effect of pronuclear morphology on early development and chromosomal abnormalities in cleavage-stage embryos

BACKGROUND

Pronuclear (PN) zygote morphology has been proposed as a useful tool for selecting the best embryos for transfer.

METHODS

PN morphology was recorded in 888 zygotes and classified according to similar/different PN size [groups A (n = 816) and B (n = 72)] and to the number, distribution and synchrony of nucleolar precursor bodies (NPB): subgroup I, pronuclei with 3-4 polarized NPB; subgroup II, 5-7 synchronic polarized NPB or 7-10 NPB distributed randomly; and subgroup III, morphologies other than those of groups I or II. Embryo development and chromosomal abnormalities were evaluated for each PN pattern.

RESULTS

In patients aged </=37 years, the number of zygotes reaching morula and blastocyst stage was significantly (P = 0.0003) higher in group A than in group B. In group A, the incidence of chromosomal abnormalities was significantly (P = 0.0247) lower than in group B, and significant differences were observed when pattern AI was compared with pattern AII (P = 0.0280), AIII (P = 0.0024), BIII (P = 0.0077) and total B (P = 0.0247). In patients aged >37 years, statistical differences among groups were not observed.

CONCLUSIONS

In patients aged </=37 years, zygotes with similar PN size and with polarized NPB present the best prognosis based on embryo development and the incidence of chromosomal abnormalities, whereas in patients aged >37 years, this correlation does not exist.

Successful nonsurgical deep uterine embryo transfer in pigs

At present, it is possible to transfer pig embryos directly into the uterine body of sows by nonsurgical procedures. The aim of this study was to develop a procedure for nonsurgical embryo transfer (ET) into the upper part of one uterine horn in gilts and sows. In experiment 1, 29 gilts and 43 sows were used. Intrauterine insertions took place for each female at days 4-6 of the estrous cycle (D0 = onset of estrus). An artificial insemination (AI) spirette was inserted into the cervix to assist with the guidance of a modified flexible catheter originally developed for deep intrauterine insemination in pigs. The flexible catheter length inserted anterior to the inserted AI spirette was 43.0 +/- 1.7 cm. The time required to complete the procedure was affected by the type of female (P < 0.001) and by the difficulties encountered for inserting the catheter (P < 0.001). However, when no or minor difficulties were encountered during the insertion of the catheter (in approximately 70 and 80% of gilts and sows, respectively), the time required to complete the procedure did not differ between gilts (2.5 +/- 0.1 min) and sows (2.3 +/- 0.1 min). In experiment 2, 24 to 31 fresh morulae and/or blastocysts were transferred to each of 24 recipients. Seventeen animals (70.8%) farrowed an average of 6.9 +/- 0.7 piglets, of which 0.6 +/- 0.3 piglets were born dead. In conclusion, the procedure described in this study offers new possibilities to transfer embryos nonsurgically to the uterine horn of pigs.

Development, DNA fragmentation and cell death in porcine embryos after 24 h storage under different conditions

For practical applications of porcine embryo transfer (ET) it is important to develop feasible embryo storage conditions. The aim of the present study was to evaluate the effect of short-term storage (24 h) on the quality of in vivo produced porcine embryos. Three temperatures 18, 25 and 38 degrees C and three different media: Dulbecco's phosphate buffered saline (DPBS), TCM199 and Emcare, were tested for two different embryo ages: D4 embryos (collected 144 h after hCG treatment) and D5 embryos (collected 168 h after hCG). After slaughter of the donor gilts, embryos were collected and transported at 25 degrees C to the lab where morulas and blastocyst were selected (D4 n = 222; D5 n = 167) and randomly used as controls or distributed over the treatment groups. Developmental stage and embryo diameter were assessed by normal light microscopy, while total number of cells and incidence of apoptosis were assessed using a fluorescent embryo quality staining technique that combines three different dyes: Ethidium Homodimer (EthD-1), TUNEL and Hoechst 33342. Following 24 h storage, D5 embryos had higher rates of hatching (24%) and degeneration (9%) compared to D4 embryos (10 and 4%, respectively; P < 0.05). Embryos stored at 38 degrees C had higher rates of hatching (37%) compared to those ones stored at 25 degrees C (13%) or 18 degrees C (0%; P < 0.01). More embryos hatched when stored in medium Dulbecco's phosphate buffered saline (DPBS) or in TCM199 compared to those stored in Emcare (P < 0.05). A higher percentage of embryos stored at 18 degrees C degenerated compared to those stored at 25 or 38 degrees C (P < 0.01). No significant increase in apoptosis was observed after storage compared to the rates of apoptosis at 0 h (controls) or between the different storage groups. Based on the results we conclude that D4 porcine embryos produced in vivo, selected under normal light microscopy and stored at 25 degrees C in a serum free medium for 24 h will have a suitable developmental stage for ET and a high embryo quality.

Oct-4 expression in pluripotent cells of the rhesus monkey

The POU (Pit-Oct-Unc)-domain transcription factor, Oct-4, has become a useful marker of pluripotency in the mouse. It is found exclusively in mouse preimplantation-stage embryos after embryonic genome activation and is a characteristic of mouse embryonic stem (ES) cells, and its absence in knockout mice precludes inner cell mass (ICM) formation in blastocysts. Expression of Oct-4 has also been associated with pluripotency in primate cells. Here, we undertook a systematic study of Oct-4 expression in rhesus macaque preimplantation embryos produced by intracytoplasmic sperm injection and in ES cells before and after exposure to differentiating conditions in vitro. We also evaluated Oct-4 expression as a means of monitoring the extent of reprogramming following somatic cell nuclear transfer. Oct-4 was detected by reverse transcription-polymerase chain reaction and immunocytochemistry with a monoclonal antibody. Monkey pronuclear-stage zygotes and cleaving embryos up to the 8-cell stage showed no detectable Oct-4. Nuclear staining for Oct-4 first became obvious at the 16-cell stage, and a strong signal was observed in morula and compact morula stages. Both ICM and trophectodermal cell nuclei of monkey early blastocysts were positive for Oct-4. However, the signal was diminished in trophectodermal cells of expanded blastocysts, whereas expression remained high in ICM nuclei. Similar to the mouse, hatched monkey blastocysts showed strong Oct-4 expression in the ICM, with no detectable signal in the trophectoderm. Undifferentiated monkey ES cells derived from the ICM of in vitro-produced blastocysts expressed Oct-4, consistent with their pluripotent nature, whereas ES cell differentiation was associated with signal loss. Therefore, Oct-4 expression in the monkey, as in the mouse, provides a useful marker for pluripotency after activation of the embryonic genome. Finally, the observed lack or abnormal expression of Oct-4 in monkey nuclear transfer embryos suggests inadequate nuclear reprogramming.

Influence of the duration of gamete interaction on cleavage, growth rate and sex distribution of in vitro produced bovine embryos

Various factors including the length of gamete interaction and embryo culture conditions are known to influence the rate of development and sex ratio of mammalian embryos produced in vitro. While the duration of gamete interaction deemed optimum would vary depending upon the species involved and the preferred sex in the outcome of in vitro procedures, the mechanisms favoring the selection of embryos of one sex over the other, or the exact time of post-fertilization stage at which a sex-related difference in growth rate is manifested, are not fully understood. In order to determine the optimum length of gamete co-incubation and the impact of male gamete 'aging' on the growth rate and sex ratio of bovine embryos, a series of experiments was carried out using in vitro matured (IVM) oocytes. In experiment 1, IVM oocytes were co-incubated with sperm from two different bulls for 6, 9, 12 and 18 h and the presumptive zygotes were cultured for approximately 7.5 days (178-180 h post-insemination (hpi)) prior to assessing the cleavage rate, blastocyst yield and the sex ratio of blastocysts in each co-incubation group. In experiment 2, the blastocysts obtained from different co-incubation groups were subjected to differential staining to determine the total cell number (TCN) and the proportion of cells allocated to the inner cell mass (ICM) in male and female embryos to test for sex-related differences in cell proliferation or in differentiation of the two embryonic cell lineages in the blastocysts. In experiment 3, IVM oocytes co-incubated for 6, 9, 12 and 18 h with sperm from a single bull, were cultured for 3 days (72 hpi) and the pre-morulae, categorized according to the specific stage of early development, were sexed to determine if a sex-dependent difference is detectable before the blastocyst stage. In experiment 4, IVM oocytes exposed to prolonged co-incubation (18 and 24 h) were compared with those co-incubated with "aged" (pre-incubated) sperm to determine if "aging sperm" is a factor affecting the growth rate and sex ratio of the out come. Our experiments showed that (1) the shortest period (6 h) allowed the highest proportion of cleaved oocytes to reach the blastocyst stage regardless of the semen donor, (2) males out number females (over 2 to 1) among blastocysts when co-incubation of gametes is reduced to 6 h, (3) the male blastocysts display higher total cell count, and (4) the faster growth rate of the male embryos does not affect the early differentiation and allocation of cells to the ICM. Furthermore, our results indicate that the disruption of the expected 1:1 ratio for male and female embryos in the short term co-incubation group is evident as early as the 4-cell stage and peaks at the 8-cell stage and that prolonged gamete interaction tends to reduce the blastocyst yield to even out the sex ratio. Absence of a significant effect on the yield and sex ratio of blastocysts in the prolonged co-incubation groups irrespective of the type of sperm (aged versus non-aged) used suggest that the preponderance of male embryos in short term gamete interaction group may be dependent upon the in vitro advantage of the Y-chromosome bearing sperm. This advantage, manifested in the precocious development during the pre-morulae stage is confined to a short duration that is neutralized when gamete interaction is allowed to proceed beyond 6h.

Day 3 and day 5 morphological predictors of embryo viability

Controlling multiple pregnancies in patients undergoing artificial reproductive procedures requires consideration of single embryo transfers. Therefore, refinements for embryo evaluation are needed that select for the most developmentally competent embryo. The present study was designed to identify day 3 and day 5 morphological predictors of viability following transfers in which the morphology and fate of each embryo was precisely determined. Assessments on day 3 included cell number, and the extent of fragmentation and asymmetry, and on day 5, the developmental stage. Embryos resulting in a viable fetus at 11 weeks gestation were considered developmentally competent. The relationships among individual and collective embryo morphological characteristics were evaluated. Analysis of the interactions among morphological characteristics of embryos transferred on day 3 enabled identification of a multivariable selection order. Assessment of day 5 embryos revealed that expanding and expanded blastocysts exhibited comparable developmental potential that was superior to that of either morulae or early blastocysts. However, expanding or expanded blastocysts derived from 7-cell or 8-cell embryos were developmentally superior to those derived from other cleavage stages, regardless of fragmentation or asymmetry. Collectively, these findings further understanding of morphological predictors of viability, thereby improving the ability to select the most viable embryo for transfer.

Analysis of the mechanism for chromatin remodeling in embryos reconstructed by somatic nuclear transfer

The objective of the present study was to understand the molecular/biochemical nature of chromatin remodeling that occurs in the somatic nuclei transferred into oocytes. We produced the reconstructed mouse embryos by two different protocols of nuclear transfer. The nucleus of a cumulus cell was transferred into enucleated unfertilized oocytes (transferred before activation, TA protocol) or activated oocytes (activated before transfer, AT protocol). More than half (56.1%) of the embryos reconstructed using the TA protocol developed to the morula/blastocyst stage, whereas very few (1.0%) of the embryos reconstructed using the AT protocol reached the morula/blastocyst stage. These embryos were analyzed for the events associated with transcriptional regulation. Changes in transcriptional activity, nuclear accumulation of TATA box binding protein (TBP), and DNase I sensitivity were examined after nuclear transfer. In the embryos reconstructed by TA protocol, all of these events occurred in a manner similar to that in the control diploid parthenogenetic embryos. The transcriptional activity was silenced after nuclear transfer and resumed at the late 1-cell stage. TBP was displaced and subsequently accumulated at the early and the late 1-cell stage, respectively. DNase I sensitivity was increased and then decreased at the early and late 1-cell stage, respectively. In contrast, embryos reconstructed using the AT protocol did not show such changes in transcriptional activity, TBP accumulation, and DNase I sensitivity. These events would be necessary for differentiated nuclei to restore totipotency and are useful indices to evaluate successful chromatin remodeling.

Germinal vesicle material is essential for nucleus remodeling after nuclear transfer

Successful cloning by nuclear transfer has been reported with somatic or embryonic stem (ES) cell nucleus injection into enucleated mouse metaphase II oocytes. In this study, we enucleated mouse oocytes at the germinal vesicle (GV) or pro-metaphase I (pro-MI) stage and cultured the cytoplasm to the MII stage. Nuclei from cells of the R1 ES cell line were injected into both types of cytoplasm to evaluate developmental potential of resulting embryos compared to MII cytoplasmic injection. Immunocytochemical staining revealed that a spindle started to organize 30 min after nucleus injection into all three types of cytoplasm. A well-organized bipolar spindle resembling an MII spindle was present in both pro-MI and MII cytoplasm 1 h after injection with ES cells. However, in the mature GV cytoplasm, chromosomes were distributed throughout the cytoplasm and a much bigger spindle was formed. Pseudopronucleus formation was observed in pro-MI and MII cytoplasm after activation treatment. Although no pronucleus formation was found in GV cytoplasm, chromosomes segregated into two groups in response to activation. Only 8.1% of reconstructed embryos with pro-MI cytoplasm developed to the morula stage after culture in CZB medium. In contrast, 53.5% of embryos reconstructed with MII cytoplasm developed to the morula/blastocyst stage, and 5.3% of transferred embryos developed to term. These results indicate that GV material is essential for nucleus remodeling after nuclear transfer.

Cysteamine supplementation during in vitro maturation and embryo culture: a useful tool for increasing the efficiency of bovine in vitro embryo production

Cysteamine when added during in vitro maturation (IVM) or in vitro embryo culture (IVC) stimulates glutathione (GSH) synthesis and improves embryo developmental rates. This suggests that GSH synthesis is decreased in the in vitro produced embryo. The present study was carried out to evaluate if addition of cysteamine to culture medium at the same time, during IVM and IVC of bovine oocytes, may promote an overall improvement on the developmental rate and embryo quality. Oocytes were matured in TCM 199 supplemented with 10% (v/v) fetal calf serum, hormones, and 0 or 100 microM of cysteamine for 24 hr. After IVM, the oocytes were fertilized (day 0). Day 2 embryos (2-8 cell) were washed and transferred to fresh IVC medium supplemented with 0, 25, 50, or 100 microM of cysteamine and cultured for 48 hr. After this, embryos were cultured in IVC medium without cysteamine until day 8 of IVC. In the present study, we confirmed our previous results by demonstrating that the percentage of embryos that developed to the blastocyst stage was significantly higher (P < 0.05) when 100 microM of cysteamine was added during IVM, and this was further improved when 100 and 50 microM of cysteamine where present during IVM and IVC, respectively (P < 0.05). After cryopreservation, no differences were observed on embryo development, but a significant increase on embryo hatching was found between unsupplemented and supplemented oocytes with 100 and 50 microM of cysteamine during IVM and IVC, respectively (P < 0.05). We can conclude that GSH synthesis stimulation during bovine IVM with cysteamine, concomitant with GSH stimulation during IVC, will be a useful and simple tool for increasing the efficiency of in vitro bovine embryo production.

Cryopreservation of pig embryos: adaptation of vitrification technology for embryo transfer

Great advancements in cryopreservation of pig embryos have been made since the last International Conference on Pig Reproduction (ICPR). In 1997, there were standard methods to cryopreserve germplasm and embryos of most livestock species, except for the pig, and development of this technology for use in the international pig industry was slow and in the early stages. Since 1997, there have been advancements in cryopreservation of pig embryos, with reports of production of live offspring after transfer of frozen-thawed and vitrified-warmed pig embryos. This review summarizes the progress in cryopreservation of pig embryos since 1997. Cellular and molecular biology have been used to understand the hypothermic sensitivity of pig embryos. Development of delipation technology has provided the first evidence that intracellular lipids are linked to hypothermic sensitivity. Cytoskeletal stabilization and vitrification have led to the production of live offspring from vitrified-warmed and transferred embryos. Recently, technology has been developed for cryopreservation of pig morulae. Development of open pulled straws has provided more rapid rates of cooling during vitrification and has been effective for cryopreservation of pig embryos. Although improvements and refinements of the technologies will continue, it is now time for the pig industry to consider cryopreservation of pig embryos as a tool for pig production and for propagation of select herd genetics, while maintaining germplasm resources for the future.

Hox11 Acts Cell Autonomously in Spleen Development and Its Absence Results in Altered Cell Fate of Mesenchymal Spleen Precursors

The genetic steps governing development of the spleen are largely unknown. Absence of Hox11 in mice results in asplenia, but it is unclear how Hox11 exerts its effect on spleen development. To more precisely define Hox11's role in spleen morphogenesis, we have examined the fate of the developing spleen in Hox11(-/-) mice. Perturbation of spleen development begins between dE13 and dE13.5. Cells of the spleen anlage persist past this developmental stage as an unorganized rudiment between the stomach and the pancreas. They fail to proliferate, and haematopoietic cells do not colonize the rudiment. At later stages of embryonic development, the cells can be observed in the mesenchyme of the pancreas, also an expression site of Hox11. In Hox11-/-<-->+/+ chimaeras, spleens were devoid of Hox11(-/-) cells, indicating that the genetic defect is cell autonomous and not due to failure of the organ anlage to attract and retain haematopoietic cells. In -/-<-->+/+ chimaeric embryos, Hox11(-/-) cells were initially present in the spleen anlage. However, at dE13, a reorganization of the spleen occurred in the chimaeras and Hox11(-/-) cells were subsequently excluded from the spleen, suggesting that a change in the affinity for one of the spleen cells had occurred. These observations demonstrate that spleen development consists of genetically separable steps and that absence of Hox11 arrests spleen development at an early stage. The formation of the spleen primordium before the entry of haematopoietic cells does not require the activity of Hox11. However, subsequent differentiation of spleen precursor cells is dependent on the Hox11 gene.

Birth of piglets after OPS vitrification and transfer of compacted morula stage embryos with intact zona pellucida

In swine, five to six days post-insemination, morulae and blastocysts are collected together after uterine flushing. The purpose of this study was to vitrify zona pellucida-intact morulae with Open Pulled Straw (OPS) technology and obtain piglets after transfer. Morulae (200) were vitrified after a two-step equilibration in ethylene glycol, dimethyl sulfoxide and sucrose in Hepes-buffered TCM199 + 20% NBCS medium (TCM). 2-6 morulae were loaded into OPS and plunged into liquid nitrogen. At embryo warming, a three-step dilution with decreasing concentrations of sucrose was applied. In each of 10 recipients, 20 morulae were transferred surgically. Day 25, gestation rate and the farrowing rate were 80% and 70%, respectively. The pregnant recipients farrowed from 1 to 8 piglets and the survival of total transferred embryos was 13%. Although survival rates are still compromised, OPS technology is therefore appropriate to cryopreserve porcine morulae with intact zona pellucida.

The viability of transferred sheep embryos after long-term cryopreservation

The survival to term of 414 sheep embryos, thawed and transferred after conventional cryopreservation and storage for 13 years, was evaluated. A concurrent experiment involving the transfer of vitrified embryos to 91 ewes and artificial insemination of 51 ewes with frozen-thawed semen from sires of the long-term cryopreserved embryos provided forms of control treatments. The donor ewes had a mean ovulation rate of 10.9, and 7.1 embryos per ewe were cryopreserved. Each recipient ewe received two embryos and pregnancy was assessed at Day 18, Day 54 and term. The pregnancy rate was lower in the long-term embryo group than the artificial insemination group at Day 18 (P<0.01) and Day 54 (P<0.05), although the difference at term (31% v. 49%) was not significant, with the vitrified embryo group being similar to the long-term group. Embryo survival to birth was 21%, with the majority of loss (80%) occurring by Day 18. The later stage of development and higher grade of transferred embryos and the older age of donor ewes resulted in a significantly higher (P<0.01) pregnancy rate at Day 54 and term, and percentage of lambs born and weaned. Other effects of donor ewes (genotype, superovulation treatment, number of ovulations and embryos cryopreserved) were not significant. Implications for the design of genetic evaluation and germplasm conservation programmes using embryo cryopreservation technology are discussed.

Pregnancies achieved after transferring frozen morula/compact stage embryos

OBJECTIVE

To report two cases of frozen embryo transfers in which embryos were frozen at the morula/compact stage and pregnancies were achieved after transfer.

DESIGN

Case report.

SETTING

Private assisted reproductive program.

PATIENT(S)

Two women had transfer of embryos that were frozen at the morula/compact stage.

INTERVENTION(S)

Human morula/compact embryos were cryopreserved and transferred after subsequent thaw.

MAIN OUTCOME MEASURE(S)

Embryo survival after thawing and subsequent pregnancy outcome.

RESULT(S)

Three and five compact embryos were frozen on day 4 for two patients, respectively. In the first case, all three embryos survived after thawing, and all were transferred. In the second patient, three of five embryos survived after thawing, and those three surviving embryos were transferred. Pregnancies were achieved in both patients. The first woman became pregnant with twins and delivered two girls weighing 2,270 g and 2,071 g, respectively. The second patient became pregnant with a singleton and delivered a boy weighing 2,837 g.

CONCLUSION(S)

Human embryos can be frozen and thawed in the morula/compact stage and achieve normal pregnancy. Advantages of embryo freezing/thawing at the morula/compact stage include the following: [1] compared with earlier embryonic stage freezing, morula/compact-stage embryos provide better embryo selection and [2] it is easier and safer to perform assisted hatching on compact-stage embryos when compared with those from other preimplantation stages.

Feline embryo transfer during the non-breeding season

To obtain normal kits by embryo treansfer (ET) during the non-breeding season, maintenance of pregnancy was carried out by administration of sustained action progesterone (P4) in queens. Embryos were recovered six days after mating from five donor queens in which ovulation was induced by administration of eCG and hCG. The number of embryos recovered ranged from 24 to 53 (mean: 37.2 +/- 6.4) per animal and most embryos were compacted morulae. The yield of embryos was 49.0-93.3% (mean: 73.8 +/- 9.6%). As for recipients, porcine pituitary gland preparation and hCG were administered to 19 queens and estrus and ovulation were induced in 18 queens (94.7%). These queens underwent intrauterine ET of five compacted morulae and 17 cats (94.4%) were impregnated. The number of implantations was 2-5 (mean: 3.7 +/- 0.3). Among these impregnated queens, 15 cats received P4 adminstration starting on day 24 of gestation and 1-5 newborns (mean: 3.4 +/- 0.3) were obtained by normal delivery or caesarean section on day 64-69 of gestation. However, two animals that were not treated with P4 underwent spontaneous abortion about the mid gestational period. Therefore, it is possible to obtain normal kits from queens in the non-breeding season by ET with maintenance of pregnancy by P4 administration.

Piglets born after vitrification of embryos using the open pulled straw method

Morulae and unhatched blastocysts from Large White hyperprolific (LWh) and Meishan (MS) gilts were selected to test an ultrarapid open pulled straw (OPS) vitrification method with two media. The viability of vitrified/warmed embryos was estimated by the percentage of embryos that developed to the hatched blastocyst stage in vitro or by birth after transfer. In Experiment 1, two cryoprotectant dilution media were compared for cryopreservation of MS and LWh blastocysts: TCM was a standard Hepes-buffered TCM199 + 20% NBCS medium and PBS was a PBS + 20% NBCS medium. After a two-step equilibration in ethylene glycol, dimethyl sulfoxide, and sucrose, 2-5 blastocysts were loaded into OPS and plunged into liquid nitrogen. Embryos were warmed; a four-step dilution with decreasing concentrations of sucrose was applied. In PBS, LWh blastocysts (27%) had a lower viability in vitro than MS blastocysts (67%; P = 0.001). In TCM, no significant difference was observed between genotypes (41% for LWh and 43% for MS blastocysts) and both viability rates were lower than that of the control groups. In Experiment 2, morula-stage LWh and MS embryos were vitrified and warmed using PBS. The viability rate was low and did not differ between LWh (11%) and MS (14%). In Experiment 3, 200 MS and 200 LWh blastocysts were vitrified/warmed as described in Experiment 1 (PBS). In each of 20 MS recipients, 20 embryos were transferred. The farrowing rate was 55% and recipients farrowed four and five piglets (median) for MS and LWh blastocysts, respectively. The OPS method is therefore appropriate for cryopreservation of unhatched porcine blastocysts.

Determinants of the cardiomyopathic phenotype in chimeric mice overexpressing cardiac Gsalpha

Mice with overexpressed cardiac Gsalpha develop cardiomyopathy, characterized by myocyte hypertrophy and extensive myocardial fibrosis. The cardiomyopathy likely involves chronically enhanced beta-adrenergic signaling, because it can be blocked with long-term propranolol treatment. It remains unknown whether the genotype of the myocyte is solely responsible for the progressive pathological changes. A chimeric population in the heart should answer this question. Accordingly, we developed a chimeric animal, which combined cells from a transgenic overexpressed Gsalpha parent and a Rosa mouse containing the LacZ reporter gene, facilitating identification of the non-Gsalpha cells, which express a blue color with exposure to beta-galactosidase. We studied these animals at 14 to 17 months of age (when cardiomyopathy should have been present), with the proportion of Gsalpha cells in the myocardium ranging from 5% to 88%. beta-Galactosidase staining of the hearts demonstrated Gsalpha and Rosa cells, exhibiting a mosaic pattern. The fibrosis and hypertrophy, characteristic of the cardiomyopathy, were not distributed randomly. There was a direct correlation (r=0.85) between the extent of myocyte hypertrophy (determined by computer imaging) and the quantity of Gsalpha cells. The fibrosis, determined by picric acid Sirius red, was also more prominent in areas with the greatest Gsalpha cell density, with a correlation of r=0.88. Thus, the overexpressed Gsalpha can exert its action over the life of the animal, resulting in a local picture of cardiomyopathic damage in discrete regions of the heart, where clusters of the overexpressed Gsalpha cells reside, sparing the clusters of normal cells derived from the normal Rosa parent.

Post-natal growth and development of Simmental calves derived from in vivo or in vitro embryos

Large fetuses arising from embryos produced in vitro have been shown to exhibit altered organ development in utero, but it is not known whether this persists post natally. Post-natal growth and development was examined in 18 Simmental bulls derived from in vivo frozen-thawed (n = 6), in vitro frozen-thawed (n = 6) or in vitro fresh (n = 6) embryos and reared together post weaning on an ad libitum diet until slaughter at approximately 13 months old. Calves weighing less than 60 kg at birth (n = 11) were classified as normal, and heavier calves (n = 7; all from in vitro embryos) as oversize. Lifetime growth rates and slaughter weights apparently were unaffected by embryo source or birthweight. Mean (+/- s.e.m.) post mortem liver and kidney weights were unaffected by embryo source, but hearts of bulls from in vitro frozen embryos were heavier than those of bulls from in vivo frozen embryos (2.7 +/- 0.04 v 2.3 +/- 0.07 kg, P<0.025). Heart weight per kilogram body weight at slaughter for the 7 perinatally oversize males (4.01 +/- 0.08 g) exceeded that of the other 5 bulls from in vitro embryos (3.60 +/- 0.10 g kg(-1); P<0.04) and the 6 in vivo males (3.56 +/- 0.12 g kg(-1); P<0.02). Overall, one-third of the variation in heart weight at slaughter (r2 = 0.35; P = 0.01) was due to variation in birthweight. This is the first study to demonstrate birthweight-related developmental effects on post-natal organ weight following the transfer of embryos produced in vitro.