126 Subcortical maternal complex (SCMC) expression during folliculogenesis is affected by oocyte donor age in sheep

Age-associated decline in female fertility is largely attributable to decrease in oocyte quality. However, the molecular mechanisms that shape oocyte developmental competence, and that may be involved in reproductive aging, are yet to be elucidated. The subcortical maternal complex (SCMC) is a multiprotein complex located in the subcortex of oocytes that is essential for early embryogenesis and female fertility. It appears to be functionally conserved across mammals; aberrant expression of its members was observed in several animal models of differential competence, and mutations in human SCMC genes were associated with certain human reproductive disorders. At least seven proteins contribute to the complex: KH domain-containing 3 like (KHDC3/FILIA), NLR family pyrin domain-containing 2 (NLRP2), NLRP5 (MATER), oocyte expressed protein (OOEP), peptidyl arginine deiminase 6 (PADI6), transducin-like enhancer of split 6 (TLE6), and zinc finger BED-type-containing 3 (ZBED3), all encoded by maternal effect genes (MEGs). The aim of the present work was to evaluate expression dynamics of the SCMC components during folliculogenesis in relation to maternal age in sheep. Total RNA was isolated and reverse-transcribed from pools of denuded growing oocytes (GO) of different diameters (70-90μm (small, S), 90-110μm (medium, M), or 110-130μm (large, L)) derived from nonhormonally treated prepubertal (Pr, age 40 days), adult (Ad, age <4 years), or aged (Aged, age >6 years) animals (5 pools of 30 oocytes per experimental group). The SCMC expression was assessed by real-time PCR (PCR efficiency of 90-110% and correlation coefficient r2>0.99). Data were normalized against oocyte number and an exogenous spike-in mRNA, Luciferase, as reference gene. Expression dynamics were analyzed within each age group (general linear model ANOVA). Strikingly, patterns specifically associated with donor age were observed during folliculogenesis for six of the seven SCMC components. The Pr group showed active transcription of all mRNA, except ZBED3, during the entire window of oocyte growth (P<0.05). On the contrary, the similar abundance of NLRP2, NLRP5, PADI6, and ZBED3 in Ad S, M, and L GO suggests earlier storage during folliculogenesis; FILIA, OOEP, and TLE6 showed an increase between Ad S and M GO (P<0.05), indicating that the synthesis of these transcripts is complete at this stage (M GOs). Notably, oocytes derived from Aged donors showed a completely inverse expression pattern, with a decrease in abundance of NLRP2, TLE6, FILIA, and PADI6 mRNAs during the last stage of oocyte growth (L GO; P<0.05). Interestingly, MATER showed very high variability in expression (standard error (SE) ranging from 0.79 to 1.13 quantitation cycles (Cq)) in Aged GO, compared to Ad GO (SE 0.16-0.24 Cq) or Pr GO (SE 0.16-0.26 Cq), suggesting large inter-oocyte differences. In conclusion, age affects the storage of the MEGs encoding the SCMC during folliculogenesis. The observed depletion in SCMC transcripts in GO of aged donors is likely to be involved in the age-related decline in oocyte quality.

111 Fertilizing ability of frozen and freeze-dried semen following intracytoplasmic sperm injection of invitro-matured sheep oocytes

Freeze-drying is a novel technique that permits the storage of semen at room temperature for long time periods, retaining their fertilizing capacity. The main objective of this work was to compare the fertilization ability of frozen-thawed (FT) and freeze-dried (FD) ram semen following intracytoplasmic sperm injection (ICSI) of invitro-matured (IVM) sheep oocytes. Oocytes were recovered by slicing the ovaries of slaughtered sheep. Selected cumulus-oocyte complexes (COCs) were IVM for 24h in tissue culture medium 199 (TCM-199) supplemented with 10% heat-treated oestrous sheep serum (ESS), 0.36mM pyruvate, FSH (1IUmL−1), and luteinising hormone (LH; 1IUmL−1) under mineral oil in a humidified atmosphere of 5% CO2, at 38.5°C. Semen was collected from fertile adult rams using an artificial vagina and processed for (1) freezing and thawing (Khalifa and Lymberopoulos, 2013 Cell Tissue Bank 14, 687-698; https://doi.org/10.1007/s10561-012-9357-6) or (2) freeze-drying and rehydration according to Arav et al. (2018 J. Assist. Reprod. Genet. 35, 1149-115; https://doi.org/10.1007/s10815-018-1145-1) protocols. For FD protocol, sperm samples were diluted in a sugar solution of trehalose and sorbitol (LyoB) and dehydrated for 24h. Later, the samples were rehydrated in a warming solution and diluted in TCM-199 before ICSI. After maturation, metaphase II (MII) oocytes with a polar body were injected with FT or FD sperm. Briefly, oocytes were transferred into groups of six in an ICSI dish containing 6-µL drops of holding medium (TCM-199 + 5% fetal bovine serum) and 3-µL drops of PVP for the sperm samples. Injection was carried out with an inverted microscope (Olympus IX73) connected to a micromanipulation system (Narishige) using ICSI pipettes with 7-µm internal diameter. Within 1h, ICSI oocytes were activated with 5 µM ionomycin for 4min and invitro cultured in modified synthetic oviductal fluid medium (Bogliolo et al. 2011 Reprod. Fertil. Dev. 23, 809-817; https://doi.org/10.1071/RD11023). After 17-21h, injected oocytes were fixed and stained in a solution of ethanol Hoechst 33342 and classified as FPN (one female pronucleus and one condensed sperm head), MPN (one male pronucleus and one MII), 2PN (two pronuclei, male and female), 3PN (three or more pronuclei), and NPN (no pronuclei). Data were analysed using analysis of variance (two-way ANOVA) followed by Tukey post hoc test with SAS software, version 9.4. The ICSI-FD group had a higher number of NPN and a lower number of 2PN than did the ICSI-FT group (P<0.05). We think that more technical advances in the FD process as well as the rehydration procedure are necessary to improve the application of FD ovine semen for invitro fertilization by ICSI in sheep, but in any case these results have showed that FD could be a useful tool for the future of invitro embryo production. Table 1.Pronuclear formation at 17-21h post-injection1 Treatment n FPN MPN 2PN 3PN NPN FT 71 9.66±4.12 4.26±1.48 48.13±2.79a 5.97±4.16 31.98±6.75a FD 65 6.16±2.26 1.39±1.39 20.15±4.14b 10.57±6.59 61.73±6.89b a,bValues in the same column with different superscript letters differ significantly (P<0.05). 1Data are presented as mean±s.e.m. FPN=female pronucleus, MPN=one male pronucleus and one metaphase II oocyte, 2PN=two pronuclei, male and female, 3PN=three or more pronuclei, NPN=no pronuclei. Funding was provided by Spanish MINECO Grant AGL2017-85837-R, Spanish MECD pre-doctoral grant FPU15/00773, and Spanish MECD mobility grant EST18/00472 to Irene Menéndez Blanco.

38 Vitrification of prepubertal lamb spermatogonia using a novel vitrification system

Vitrification is a method extensively used for preserving oocytes and embryos and is also gaining acceptance for preserving gonadal tissue. Cryopreservation of spermatogonial stem cells is an applicable method for young males seeking fertility preservation before starting a treatment or can be a tool for genetic preservation of rare or high-value animals. The aim of this work was to evaluate the cryopreservation of testicular tissue from young lambs by vitrification using a new device named E.Vit (FertileSafe, Ness Ziona, Israel) that permits all cryopreservation procedures to be performed in straw. The new device consists of a 0.3-mL straw (Cryo Bio System, IMV, L’Aigle, France) with a capsule containing 50-µm pores inserted at one end. Testicular tissue extracts were prepared from testes of slaughtered lambs (n=10, 40 days old), opened by sagittal sectioning with a microblade and collecting small pieces of testicular tissue (1mm3) from the middle part of the rete testis. Three pieces of gonadal tissue were inserted into each E.Vit device. Each straw was sequentially loaded vertically in two 1.5-mL microtubes, which contained the following solutions: first, the equilibrating solution (7.5% dimethyl sulfoxide+7.5% ethylene glycol+20% FCS in TCM-199) for 6min, followed by 90min in the vitrification solution (18% dimethyl sulfoxide+18% ethylene glycol+0.5M Trehalose+BSA in TCM-199). After exposure to the equilibrating solution and vitrification solution, the solutions were removed and the straws were directly loaded into LN2. The warming procedure consisted of placing the straws directly into 5-mL tubes containing 100, 50, and 25% warming solution (1M sucrose in TCM-199+20% FCS) at 38.6°C for 5min each before arrival into the holding medium. Samples were recovered from the straws incubated at 38.6°C in 5% CO2 in air in TCM 199+5% FCS and evaluated at 0 and 2h post-warming for viability using trypan blue staining. Expression of a panel of specific genes (SOD2, HSP90b, BAX, POUF5/OCT4, TERT, CIRBP, KIF11, AR, FSHR) was analysed by real-time PCR in cryopreserved tissue in vitro cultured for 2h post-warming (2hV), in fresh controls immediately after tissue dissection (0hF), and after 2h of in vitro culture (2hF). The majority of cells survived after vitrification, although viability immediately after warming (0hV: 56%±1.45) or after 2h of in vitro culture (IVC) (2hV: 54±7%) was significantly lower compared with non-cryopreserved fresh controls (0hF: 89%±1.45; ANOVA P<0.05). Expression analysis showed specific patterns for the different genes. Notably, BAX transcript abundance was not affected by vitrification or IVC, indicating an acceptable level of stress for the cells. The genes HSP90b and CIRBP were down-regulated in 2hF but increased in 2hV, as expected. Expression of SOD1 and OCT4 was altered by vitrification but not by IVC. Conversely, expression of TERT, KIF11, and AR was affected by both IVC and cryopreservation (ANOVA P<0.05). This novel protocol for testicular tissue cryopreservation of prepubertal animals may be a promising strategy for fertility preservation and can contribute as a new approach in the development of large-scale biodiversity programs.

47 A New Device and Method for Successful Vitrification of In Vitro-Produced Ovine Embryos

To advance the use of embryo vitrification technology in veterinary practice, we developed a system in which embryo vitrification, warming, and dilution can be performed within a straw. An in-straw embryo cryopreservation method reduces the need for equipment and technical skills and can facilitate direct embryo transfer to the uterus. This study proposes the use of a new device named “Sarah” that is designed to permit all in-straw embryo cryopreservation procedures. Ovine in vitro-produced (IVP) embryos were vitrified at either early blastocyst stage (EB, n = 65, 6 days post-IVF) or fully expanded blastocyst stage (FB, n = 168, 7 days post-IVF). The vitrification procedure using Sarah constituted a 0.25-mL straw with a capsule having 50-µm pores inserted at one end. Embryos at each stage (EB and FB) were divided into 2 subgroups and vitrified by 1 of 2 methods: (1) multi-step (MS) group-a straw containing 2 embryos was sequentially loaded vertically into 1.5-mL tubes containing 6 different vitrification solutions: 10, 20, 40, 60, 80, or 100% ES (with 100% ES being 7.5% DMSO +7.5% EG + 20% FCS in TCM-199; 90 s each step) followed by 30 s each in 75 and 100% VS (100% VS being 18% DMSO +18% EG + 0.5 M trehalose + BSA in TCM-199); and (2) two-step (TS) group-the straw (2 embryos/straw) was loaded with 100% of ES (5 min), followed by 100% VS solution for 30 s. For both methods, at the end of the preparation steps, the straws were plunged directly into liquid N2. Non-vitrified embryos were maintained in in vitro culture as a control group (n = 102). The warming procedure consisted of placing the straws directly into 5-mL tubes containing 100, 50, 25% WS (WS = 1 M sucrose in TCM-199+ 20% FCS) at 38.6°C (for first solution) and at room temperature for all the rest (5 min each), before being placed into the holding medium. Embryos were recovered from the straws, incubated at 38.6 C in 5% CO2 in air in TCM 199 + 5% FCS, and evaluated for blastocoel re-expansion, embryo survival, and hatching rate at 2, 14, 48 h post-warming. Blastocyst re-expansion (2 h) after warming increased as the developmental stage progressed and was not affected by the vitrification method. In fact, it was significantly (P < 0.05) higher for FB vitrified in the MS and TS methods (77.90% and 71.25%, respectively) compared with the EB method (62.5% and 48.50%, respectively). At 24 h, survival rate of vitrified FB was significantly higher (P < 0.05) in the MS system (95.35%) compared with those in TS (86.25%). Survival rates of FB embryos for both methods (MS and TS) were significantly higher (P < 0.001) than EB embryos vitrified in MS (56.25%) and TS (56.55) methods. After 48 h of culture, the hatching rate for FB vitrified in the MS system (87.21%) was comparable with TS (77.5%) and control (85.3%) groups but significantly higher (P < 0.001) than vitrified EB in MS (43.75%) and TS (36.36%). In conclusion, we showed that a high survival rate of IVP embryos can be achieved by this new in-straw vitrification and warming device (“Sarah”), with hatching rates in vitro comparable with that of control fresh embryos. This method has the potential for use in direct embryo transfer in field conditions.

196 USE OF A MICRO-BIOREACTOR TO PROMOTE 3-DIMENSIONAL CELL REARRANGEMENT AND INDUCE, MAINTAIN, AND STABILIZE HIGH PLASTICITY IN EPIGENETICALLY ERASED FIBROBLASTS

Development and cell differentiation are driven by complex epigenetic mechanisms that regulate chromatin structure and specific gene transcription programs. We recently demonstrated that it is possible to modify the epigenetic signature of terminally differentiated cells, switching their phenotype into one of higher plasticity, through the use of molecules that remove epigenetic marks from DNA and histones (Pennarossa et al. 2013 Proc. Natl. Acad. Sci. 110, 8948–8953; Brevini et al. 2014 Stem Cell Rev. 10, 633–642). Here we drive mammalian fibroblasts into a high plasticity state using the epigenetic eraser, 5-aza-cytidine (5-aza-CR), and investigate whether the simultaneous use of a micro-bioreactor culture system is able to promote three-dimensional (3D) cell rearrangement, boost the induction of high plasticity, and stably maintain it. To this purpose, fibroblasts were either plated on plastic dishes (Group A) or encapsulated in a liquid marble micro-bioreactor (polytetrafluoroethylene powder; Sigma 430935, St. Louis, MO; Group B). Both groups were erased with 5-aza-CR and cultured in embryonic stem cell medium for 28 days. Morphological analysis was carried out for the entire length of the experiment. The OCT4, NANOG, and REX1 expression levels were assessed by real-time PCR at different time points. Exposure to 5-aza-CR induced a dramatic change in morphology in Group A fibroblasts. Cells became rounded, with larger and granulated nuclei and retained a monolayer distribution for the entire length of the experiment. The same changes in cell and nuclear morphology were observed also in cells encapsulated in liquid marble (Group B). In addition, these cells formed 3D spherical structures that were stably maintained until Day 28. These morphological rearrangements were accompanied by the active expression of the pluripotency markers, OCT4, NANOG, and REX1, in both groups. However, while Group A cells progressively down-regulated their expression by Day 6, Group B cells steadily transcribed these genes until Day 28, when cultures were arrested. Altogether, the data confirm that epigenetic erasing induces a high plasticity state in terminally differentiated fibroblasts with the expression of pluripotency related genes. Striking morphological changes accompanied the removal of epigenetic marks. These were influenced by the use of an adequate 3D in vitro culture system, with the induction of distinctive cell rearrangements and the formation of spherical structures that boosted and maintained cell plasticity. These results suggest a correlation between the mechanotransduction pathways induced by the micro-bioreactor culture system and the epigenetic regulation of cell phenotype. Study was supported by Carraresi Foundation. Authors are members of the COST Actions FA1201, BM1308 and CM1406.

Cerium oxide nanoparticles (CeO2 NPs) improve the developmental competence of in vitro-matured prepubertal ovine oocytes

The present study investigated whether supplementation with different doses of cerium dioxide nanoparticles (CeO2 NPs) during in vitro maturation (IVM) of prepubertal ovine oocytes influenced their embryonic development in vitro. Cumulus–oocyte complexes derived from the ovaries of slaughtered prepubertal sheep underwent IVM with CeO2NPs (0, 44, 88 or 220 µg mL–1). Matured oocytes were fertilised in vitro and zygotes were cultured for 7 days. The results demonstrated that CeO2NPs were internalised in the cumulus cells and not in the oocyte. The treatment with CeO2NPs did not affect nuclear maturation or intracellular levels of reactive oxygen species of the oocytes. The percentage of oocytes with regular chromatin configuration and cytoskeleton structures when treated with 44 µg mL–1 CeO2NPs was similar to oocytes matured in the absence of CeO2NPs and significantly higher than those treated with 88 or 220 µg mL–1 CeO2NPs. The relative quantification of transcripts in the cumulus cells of oocytes matured with 44 µg mL–1 CeO2NPs showed a statistically lower mRNA abundance of BCL2-associated X protein (BAX), B-cell CLL/lymphoma 2 (BCL2) and superoxide dismutase 1 (SOD1) compared with the 0 µg mL–1 CeO2 NPs group. A concentration of 44 µg mL–1 CeO2NPs significantly increased the blastocyst yield and their total, inner cell mass and trophectoderm cell numbers, compared with the 0 and 220 µg mL–1 groups. A low concentration of CeO2NPs in the maturation medium enhanced in vitro embryo production of prepubertal ovine oocytes.

The subcortical maternal complex: multiple functions for one biological structure?

The subcortical maternal complex (SCMC) is a multiprotein complex uniquely expressed in mammalian oocytes and early embryos, essential for zygote progression beyond the first embryonic cell divisions. Similiar to other factors encoded by maternal effect genes, the physiological role of SCMC remains unclear, although recent evidence has provided important molecular insights into different possible functions. Its potential involvement in human fertility is attracting increasing attention; however, the complete story is far from being told. The present mini review provides an overview of recent findings related to the SCMC and discusses its potential physiological role/s with the aim of inspiring new directions for future research.

In vitro Developmental Competence of Adult Sheep Oocytes Treated with Roscovitine

The efficiency of in vitro sheep embryo production is still low compared to that observed in vivo and in other species. In this context, meiotic inhibition strategies emerged as a promising alternative to improve this biotechnology. So, this study aimed to evaluate, for the first time, the effects of roscovitine on in vitro maturation of sheep oocytes and their subsequent embryo development. For this, cumulus-oocyte complexes (COCs) were cultured for 6 h in the presence (Rosco) or absence (Control) of 75 μm roscovitine and, subsequently, in vitro matured (IVM) for 18 h with gonadotropins. At 0 (Immature), 6 and 24 h of culture, the nuclear status of oocytes was evaluated by Hoechst staining. Embryo cleavage and blastocyst formation were recorded 30 h after in vitro fertilization and on day 7 of culture, respectively. Blastocyst quality was evaluated by differential staining. At 6 h, the GV rate in the Rosco treatment (93.8%) was similar to that observed in the Immature oocytes (94.9%) and significantly higher compared to Control (41.3%). After IVM for 18 h, a high and similar proportion of oocytes from Rosco (93.6%) and Control (88.4%) reached the MII stage. In both treatments, approximately 70% of oocytes cleaved and 50% of them developed up to blastocyst. The mean percentage of blastocyst cells, embryoblast, trophoblast and pyknosis did also not differ between Control and Rosco. In conclusion, roscovitine, at the studied experimental conditions, was efficient to reversibly inhibit the meiosis of adult sheep oocytes without detrimental effect on development and quality of the in vitro produced embryos.

A novel technique for in vitro maturation of sheep oocytes in a liquid marble microbioreactor

PURPOSE

The aim of this work was to develop a microbioreactor using liquid marble (LM) as a novel system for oocyte in vitro maturation (IVM) in small volumes.

METHODS

Cumulus-oocyte complexes (COCs) obtained from slaughterhouse sheep ovaries were in vitro matured in a LM system prepared by placing a drop (30 μl containing 10 COCs) suspended in TCM 199 supplemented with 10 % (v/v) oestrus sheep serum (OSS) and 0.1 IU FSH and LH onto a polytetrafluoroethylene (PTFE) particle bed (LM group). As a control group (CTRL group), COCs were in vitro matured in standard volume and conditions (600 μl of IVM medium in a four-well dish). After 24-h culture at 38.5 °C in 5 % CO2 in air, COCs were released from LM and the following parameters were evaluated: (a) percentage of MII oocytes, (b) oocyte developmental competence following in vitro fertilization (IVF) or parthenogenetic activation (PA) and embryo culture for 8 days in synthetic oviductal fluid (SOF) medium at 38.5 °C in 5 % O2, 5 % CO2, and 90 % N2.

RESULTS

The results indicated similar percentage of MII oocytes in LM and CTRL groups (88.0 vs. 92.0 %). No differences were observed in blastocyst rate after IVF (LM 47.5 % vs. CTRL 50.2 %, P=0.637) or PA (LM 44.4 % vs. CTRL 48.3 %, P=0.426).

CONCLUSIONS

The results indicate that LM microbioreactor is a viable technique that provides a suitable microenvironment to induce oocyte in vitro maturation.

210 DNA METHYLATION AND HYDROXYMETHYLATION ANALYSIS IN A MODEL OF OOCYTE DIFFERENTIAL DEVELOPMENTAL COMPETENCE IN SHEEP

DNA methylation is an important epigenetic mark that plays a role in gene regulation by the addition of a methyl group to CpG islands in the DNA. Despite being relatively stable in somatic cells, DNA methylation is subject to reprogramming during embryo development and gametogenesis. The aim of this work was to evaluate different aspects of DNA methylation in relation to oocyte quality in the ovine species. A model of differential developmental competence consisting in ovine oocytes and in vitro produced (IVP) blastocysts derived from adult (AD) and prepubertal (PR) donors, was used. The methylation was analysed in terms of: expression of a panel of genes involved in DNA methylation [DNA methyltransferases (DNMTs)] and demethylation [ten-eleven translocation dioxygenases (TET)] in oocytes and blastocysts; global methylation and hydroxymethylation by direct immunofluorescence; locus-specific methylation of 2 imprinted genes by pyrosequencing. Gene relative quantification was performed by RNA reverse transcription followed by real-time PCR. Pools of 10 immature (GV) and in vitro-matured (MII) oocytes and (IVP) blastocysts derived from AD and PR donors (4 replicates per class) were analysed. Lower expression of TET1, TET2, and TET3 was observed in PR GV oocytes (ANOVA; P < 0.05), while no significant differences were found for the enzymes involved in methylation (DNMT1, DNMT3A, DNMT3B; ANOVA; P > 0.05). The levels of all the genes studied showed no significant differences in embryos at blastocyst stage (ANOVA; P > 0.05). Methylation and hydroxymethylation immunostaining were performed in GV and MII oocytes using anti-5-methylcytosine mouse mAb and 5-hydroxymethylcytosine rabbit pAB. High levels of DNA methylation were observed in both AD and PR GV and MII oocytes, while hydroxymethylation immunopositivity was scattered evident throughout the gamete chromatin. Pyrosequencing of bisulfite converted DNA was used to determine the methylation status within differentially methylated regions (DMR) of maternally imprinted H19 (CTCF binding site IV; 11 CpG sites) and paternally imprinted IGF2R (17CpG sites within intron 2). No differences were observed between classes of oocytes for each gene (pools of 40 oocytes per replicate, 3 replicates per class; ANOVA; P > 0.05). Our work shows no differences in the expression of the enzymes involved in methylation, in accordance with the results of global and locus specific methylation analysis. Conversely, we observed lower expression of the TET genes in PR GV oocytes (ANOVA; P > 0.05). TET1, TET2, and TET3, whose expression has never been studied in ovine, generate 5-hydroxymethlcytosine (5hmC) by oxidation of 5-methylcytosine (5mC), and are involved in active DNA demethylation during early embryo development. Our observation of lower expression of the TET genes in lower competence PR GV oocytes suggests that epigenetic mechanisms may affect oocyte quality and paves the way to better understand methylation dynamics during sheep pre-implantation development.

266 BIOCOMPATIBILITY OF NANOCERIA IN RAM SPERM DURING 24 HOURS OF INCUBATION

In recent years, there has been increasing interest in nanoparticles, especially those widely present in our environment. Several studies have been performed to evaluate their potential toxic effect and their possible use for biomedical applications. Among others, cerium dioxide nanoparticles (nanoceria, CeO2 ENPs) have been recently investigated for their use in biomedicine, based on their potential antioxidant function, due to the presence of oxygen vacancies and redox transformations (Ce4+/Ce3+) occurring at the surface. However, little is known about the potential toxicity of nanoceria in the reproductive system and on gametes, and no information is available with regard to its biocompatibility and potential toxicity on male gametes. The aim of the present study was to investigate effects of increasing doses of CeO2 ENPs on ram spermatozoa during 24 h storage at 4°C, based on assessment of main kinematic parameters, membranes and DNA integrity, ROS production, mitochondrial activity, and CeO2 intracellular uptake. The ejaculates of 3 rams of proven fertility were pooled and incubated with increasing doses of nanoceria (0, 22, 44, and 220 µg mL–1) up to 24 h at 4°C. The experiment was conducted in 4 replicates. At 0, 2, and 24 h of incubation, the 4 groups were submitted to the following analyses: i) main kinematic parameters (total motility and progressive motility) through CASA (computer-assisted sperm analysis); ii) acrosome and membrane integrity (propidium iodide + Pisum sativum agglutinin staining, PI+PSA); iii) flow cytometry for sperm chromatin structure assay (SCSA, acridine orange staining), mitochondrial activity (Mitotracker Orange), and ROS production (H2DCFDA). Moreover, an aliquot of semen from each group in each time step was fixed and processed for transmission electron microscopy to assess intracellular uptake of CeO2 nanoparticles by spermatozoa. Increasing concentrations of nanoceria did not affect the main kinematic parameters of ram semen; there were no differences in total and progressive motility among groups at any time point during the 24 h of incubation (P > 0.05). Integrity of the acrosome and cytoplasmic membranes, assessed through PI+PSA staining, was not affected by nanoceria in any group (P > 0.05). Moreover, exposure to nanoparticles did not increase DNA fragmentation (P > 0.05), and there was no difference in the amount of ROS produced and mitochondrial activity within the 24 h of incubation with nanoceria (P > 0.05). Absence of internalization of the nanoparticles by spermatozoa and occasional interaction between the sperm surface and nanoceria were observed by transmission electron microscopy analysis. In the present study, exposure of ram spermatozoa to increasing doses of nanoceria was not cytotoxic; furthermore, high concentrations of these nanoparticles were well tolerated. These data open new perspectives on the biomedical use of nanoceria and provide more information about their impact on male gametes.

Effect of caffeine treatment before vitrification on MPF and MAPK activity and spontaneous parthenogenetic activation of in vitro matured ovine oocytes

BACKGROUND

Molecules that stabilize protein kinases may be useful in overcoming the deleterious effects of cryopreservation.

OBJECTIVE

To evaluate the effect of caffeine treatment before vitrification of in vitro matured ovine oocytes on the activity of MPF and MAPK as well as the spontaneous parthenogenetic activation after 24 h culture.

MATERIALS AND METHODS

Oocytes obtained from slaughterhouse sheep ovaries were in vitro matured for 21 h, incubated for 3 h with or without caffeine and then vitrified. After warming, oocytes were processed for the analysis of chromatin configuration and the evaluation of spontaneous parthenogenetic activation (24 h in vitro culture). Fresh in vitro matured oocytes were used as control.

RESULTS

Caffeine treatment before vitrification maintained the MPF activity at a level similar to that of fresh oocytes, and reduced the spontaneous parthenogenetic activation in comparison with oocytes that were not-treated with caffeine.

CONCLUSION

Caffeine treatment prolongs the meiotic arrest of vitrified MII oocytes, likely via its action of stabilizing the MPF level.

219 EXPRESSION PATTERN OF THE SUB-CORTICAL MATERNAL COMPLEX IN OVINE OOCYTES AND PRE-IMPLANTATION EMBRYOS

The sub-cortical maternal complex (SCMC) is a multi-protein complex located in the sub-cortex of the oocyte. In mouse, it assembles during oocyte growth and is essential for zygotes to progress beyond the first embryonic cell divisions (Li et al., 2008). At least 4 proteins contribute to the complex: oocyte expressed protein (OOEP), maternal antigen that embryo requires (MATER), transducin-like enhancer of split 6 (TLE6), and ES cell associated transcript 1 (ECAT1), all encoded by maternal effect genes. In mouse, the relative transcripts are degraded during meiotic maturation and ovulation, whereas the SCMC proteins persist in the early embryo. Whereas MATER expression has been studied in several species, the existence of the genes encoding the other components has been assessed in few mammalian species and their pattern of expression during pre-implantation development has been analysed only in mouse (Li et al. 2008 Dev. Cell 15, 416–425). In a previous work (Bebbere et al. 2008 Reprod. Fertil. Dev. 20, 908–915), we assessed MATER existence and pattern of expression in the ovine species. The aim of the present work was to assess the existence of OOEP, TLE6, and FILIA in the ovine species and to analyse the expression pattern of the 4 genes in the oocytes and during pre-implantation embryo development. Total RNA was isolated and reverse transcribed from pools of immature (GV) and in vitro matured (IVM) metaphase II (MII) oocytes, from in vitro fertilized and cultured (IVFC) embryos at the 2-, 4-, 8-, and 16-cell stage and from blastocysts. Three pools of 10 oocyte/embryos were analysed for each class. Primers were designed on the basis of the sequences conserved among orthologs and amplify intron-spanning regions. The PCR products were sequenced, and the alignment, performed with BLASTn, confirmed the homology with the orthologous genes present in public databases. Real-time PCR analysis revealed that all 4 transcripts are present at its highest level in the GV oocyte but decrease during embryo pre-implantation development with a gene-specific pattern. Conversely to the pattern of expression observed in mouse, all 4 transcripts persisted until the 8-cell stage embryo, disappearing only at the 16-cell stage. No transcripts were detected at the blastocyst stage. This study confirms the existence of transcripts related to SCMC also in the ovine species, but highlights species-specific patterns of expression in the 2 species, possibly related to the different time of activation of the embryo genome in mouse and in sheep. The observed expression patterns suggest an involvement of the protein complex in oocyte maturation and in the very first phases of life, possibly in the transition from the maternal to embryonic program of development.

103 RAMAN MICROSPECTROSCOPY AS A TOOL TO DETECT MOLECULAR MODIFICATIONS INDUCED BY AGING-RELATED OXIDATIVE STRESS IN MOUSE OOCYTES

The conditions of oxidative stress that can be generated during physiological events, such as post-ovulatory aging and reproductive aging, as well as by the PMA procedures, can seriously degrade the oocyte developmental competence. The ability to identify predictive markers of oxidative stress using noninvasive techniques may provide a useful diagnostic tool for the assessment of oocyte quality. The aim of the present work is to evaluate the potential of Raman spectroscopy (RMN) as a tool to detect molecular modifications induced by aging-related oxidative stress in mouse oocytes. The research was carried out using CD-1 mice; at the age of 4 to 8 weeks (young mice) and 48 to52 weeks (old mice), females were superovulated and oocytes at metaphase II stage were recovered from oviducts. The MII oocytes from young animals were divided into 3 experimental groups: (A) young oocytes, processed immediately after collection; (B) in vitro aged oocytes, cultured in vitro for 10 h before processing; (C) oxidative-stressed oocytes, exposed to 10 mM hydrogen peroxide for 2 min before processing (oocytes with a fully oxidized status). Oocytes from reproductively old mice were referred to as old oocytes (D). After fixation in 3.7% paraformaldehyde, oocytes (n = 10 for each group) were immersed in a 50-µL drop of PBS on quartz windows and analyzed using a Bruker Senterra confocal Raman microscope. Measurements were performed by recording 3 line scans across the oocyte with 5-µm step size, totalling 32 point spectra for each oocyte. The spectra were statistically analyzed using principal component analysis. Principal component analysis showed a clear discrimination between the spectra of young oocytes (A), in vitro aged oocytes (B), oxidative-stressed oocytes (C), and old oocytes (D). Compared with the control group (A), B, C, and D groups revealed significant differences in the bands attributable to lipid components; specifically, a reduction in the intensity of the peaks at 1653 and 1602 cm–1 (stretching of the C = C bond) and of the peaks at 1485, 1462, 1437, 1396 cm–1 (CH3-CH2 vibration) was recorded. With regard to the protein component, spectra of B, C, and D groups showed modifications in the intensities of peaks 1297 and 850 cm–1, which refer respectively to amide III and to CNC symmetric stretching compared with group A. Principal component analysis also revealed an overlap between the spectra of in vitro aged oocytes, old oocytes, and oxidative-stressed oocytes, suggesting that the molecular damage caused by ageing has similar characteristics to chemically induced oxidative damage. In conclusion, the results of our study show that Raman spectroscopy is a valuable tool for the identification of molecular biochemical markers of oxidative stress. This technique could represent a highly informative method of investigation to evaluate the oocyte quality in response to various stress conditions (in vitro maturation, aging, cryopreservation, and so on) that may negatively affect its potential development.

A retrospective study on burden of human echinococcosis based on Hospital Discharge Records from 2001 to 2009 in Sardinia, Italy

Cystic Echinococcosis (CE) is an infective zoonosis that represents a worldwide important public health problem. In humans, its manifestations may range from asymptomatic infection to severe disease and possible death, and lead to economic losses from treatment costs and lost wages. Recent studies suggest that this disease has a large social impact in endemic areas, and estimates of burden in terms of monetary and no-monetary impact on human health are essential to allocate financial and technical resources. In Sardinia, the most affected Italian region per number of inhabitants, CE is still endemic, although three eradication campaigns have been carried out in 1962, 1978, and 1987, respectively. To date, the burden of human CE in Sardinia remains poorly defined. In this work, a retrospective study was carried out using public Hospital Discharge Records spanning from 2001 to 2009. During these years, a total of 1409 discharges were recorded: 1196 (84.88%) records corresponding to patients hospitalized for symptoms directly correlated to CE (primary diagnosis), and 213 (15.11%) records corresponding to patients hospitalized for symptoms not directly correlated to CE and with an afterwards or concurrent diagnosis of echinococcosis made during the hospitalization (secondary diagnosis). The annual regional average record (discharge rate) was 9.3/100,000 inhabitants. Direct cost associated with diagnosis, surgery or chemotherapy, medical care, and hospitalization in humans were evaluated in this work. Furthermore, burden of disease was also evaluated by using the disability-adjusted life years (DALYs), the preferred disease-burden measure of the World Health Organization. Knowing the burden of human CE in Sardinia is extremely important to enable the prioritization of control measures for this preventable neglected disease. This is the first study describing the measure of the overall disease burden in an Italian region endemic for this disease, performed by calculating the number of CE patients from Hospital Discharge Records.

124 EXPRESSION OF PLURIPOTENCY MARKERS IN GENITAL RIDGES OF OVINE FOETUSES

Fundamental problems of primordial germ cell (PGC) allocation, characterization, lineage restriction, and differentiation have been extensively studied in the mouse. Historically, these cells can be identified using criteria as alkaline phosphatase, but also by the expression of other pluripotency markers suchas OCT4, Nanog, cKIT, SSEA1, SSEA4. Much less is known about PGC inother mammals. The objective ofthis study wasto describe, for the first time, the expression of multiple pluripotency markers in the genital ridges of ovine fetuses evaluating the binding of antibodies for stem cell surface markers (SSEA-1 and EMA-1) and the expression of Oct4, Nanog, and Sox2 genes. Ovine fetuses (24 and 27 days) were collected from slaughtered ewes and transported in a PBS solution at 4°C, to be processed as follows: Immunohistochemistry: 4 foetuses for each age were frozen in OCT TissueTek freezing compound and stored at -80°C. Tissue blocks were cut in 6-μm sections, placed on slides, and immediately prepared for indirect immunofluorescent staining. Section were fixed in 4% paraformaldehyde (10 min) and incubated overnight with SSEA-1 (1:100) and EMA-1 (1:50) antibodies (Hybridoma bank). Antibodies were detected with fluorescently-labelled goat anti-mouse secondary antibodies (1:100 dilution; Sigma) in 15% goat serum in DPBS for 1 h at room temperature. After washing, slides were mounted using ProLong antifade mounting medium (Molecular Probes). Gene expression: total RNA was extracted from fetal genital ridge samples with Trizol™ (Invitrogen). Any contaminating DNA was removed with RNase-free DNase I (Invitrogen). First strand cDNA synthesis was performed with SuperScript™ III RNase H-Reverse Transcriptase (Invitrogen) in the presence of RNase inhibitor (Promega). Real Time PCR amplification was performed in a BioRad iCycler™, with Platinum SYBR Green qPCR Super Mix UDG (Invitrogen). The relative quantification of the target genes was calculated with the 2-ddCt method (Livak and Schmittgen 2001 Methods 25, 402-408), after normalization against β-actin expression levels. Fragment identity was confirmed by sequencing. Our results indicate that the cortical region of the genital ridges is positive to stem cell surface markers. A larger number of positive cells was recorded in Day 24 fetuses with respect to Day 27 ones. The SSEA-1 and EMA-1 showed identical expression patterns. Similar levels of Oct4 and Nanog mRNA were detected in the genital ridges at both stages, whereas Sox2 displayed a lower abundance at Day 27. In conclusion, ovine PGC can be recognized by stem cell surface antigens and by the expression of Oct4, Nanog, and Sox2 pluripotency markers, as in mouse. The combined biomolecular and immunohistochemical approach provides a useful tool to follow the ovine PGC during in vitro culture to derive pluripotent stem cells in this species.

324 CELL LINES DERIVED FROM MAMMALIAN PARTHENOGENETIC EMBRYOS DISPLAY ABNORMAL CHROMOSOME COMPLEMENTS AND ABERRANT CENTRIOLE NUMBER

Mature oocytes can be activated in vitro, leading to the generation of parthenotes that will develop in culture forming blastocysts morphologically indistinguishable from those derived from fertilized eggs. Parthenotes have been used as a source of pluripotent cells that show the traditional features associated with their biparental counterpart: expression of totipotency markers, telomerase activity, embryoid body formation, in vitro differentiation and, in most cases, teratoma formation. However, many aspects still need to be elucidated and, in particular, little attention has been paid to the inci- dence of aneuploidy in these cells. Limited data available for parthenotes derived from different mammalian species indicate a high rate of aneuploidy, whichis consideredtobecaused by the lackofthe paternal contribution, because alterations of the centrosome are knowntolead to multipolar spindles that, in turn, cause aneuploid cells. In this study, we analyzed the rate of aneuploidy and centriole distribution (as a marker of centrosome anomalies) in pluripotent cell lines (pSC) previously derived in our laboratory from pig parthenogenetic embryos and in primary fibroblast cultures and sections obtained from sheep parthenogenetic fetuses (n = 3) that reached 24 days of development in vivo. This protocol was chosen to separate the effect related tooocyte activation from those of the procedures used to derive pSC lines. Centriole number and distribution were assessed both by immunocy- tochemical analysis using an anti-centrin-1 antibody (1 : 200, Abcam, Cambridge, UK) and an appropriate secondary antibody, and by ultrastructural evaluation of thin sections, using a Jeol 1010 EX electron microscope (Jeol, Tokyo, Japan). Karyotyping was performed on mitotically active cells. Metaphases were fully karyotyped under a Leica HC microscope (Wetzlar, Germany). Images were then captured with a Leica DC250 digital camera and cells karyotyped using the Leica CW4000 Karyo software. The results obtained indicate that cell lines of parthenogenetic origin have, in all examined cases, an incidence of aneuploidy significantly higher than that of their respective controls. In particular, although the diploid configuration represented the modal value, the majority of the cells displayed a consistently lower number of chromosomes, between <1N (hypohaploid) and >1N to <2N (hypodiploid).This resultis possibly related toa lossofchromosomes during the mitotic process.Ahigher incidence ofmultiple centrioles was also detected, suggesting that aneuploidy may be related to the lack of paternal contribution that results in abnormal centrosome formation, incorrect control of the process of spindle rearrangement, and consequent chromosomal malsegregation.Abnormal segregation and multicentriolar distribution were not limited to parthenogenetic cell lines but was observed in parthenotes as well, indicating that culture artifacts are unlikely to be the cause. PUR 2007, PUR 2008.

87 HIGH HYDROSTATIC PRESSURE TREATMENT IMPROVES THE QUALITY OF IN VITRO-PRODUCED OVINE BLASTOCYSTS

High hydrostatic pressure (HHP) has been introduced into the field of embryology recently. It has been reported that a sublethal HHP could induce the synthesis of molecular chaperons to protect the embryos from other environmental stresses. The possible beneficial effect of HHP was examined on embryo vitrification, and improved cryotolerance has been achieved in HHP-treated mouse and bovine embryos. In the present study we evaluated, first, the behavior of in vitro-produced ovine blastocysts after treatment with 2 different HHP conditions. In the second part of the study, optimized pressure treatment was combined with a cryopreservation protocol. Day 7 in vitro-produced ovine blastocysts were loaded in 0.5-mL straws and pressure treated in a custom-made hydrostatic pressure chamber (Cryo-Innovation Ltd., Budapest, Hungary) according to the following conditions: -60 MPa, 70 min, 38°C; and -40 MPa, 70 min, 38°C. After HHP treatment, embryos were cultured for 24 h and their survival evaluated upon morphological appearance, re-expansion of the blastocoel, and hatching from the zona pellucida. Blastocysts were fixed and stained, observed with confocal microscope to evaluate blastocyst cell number, and mitotic and picnotic index. Untreated blastocysts were used as controls. On the basis of results obtained in this experiment, groups of blastocysts were exposed to 40 MPa for 70 min at 38°C and, following 2 h incubation after HHp treatment, were vitrified using cryotops. After warming, embryos were checked for re-expansion and hatching and finally fixed and stained as described for fresh embryos. Vitrified untreated blastocysts were used as controls. Results showed that the hatching rate of embryos treated at 40 MPa was significantly higher than that of 60 MPa-treated group (87.5 v. 0%; P < 0.01, chi-squared test) and similar to that of control embryos (85.3%) after 24 h culture. Blastocysts exposed at 40 MPa showed higher cell number compared with control embryos (161.3 ± 8.7 v. 123.9 ± 9.4, P < 0.01, ANOVA ± SD) and a lower picnotic index (PI: 1.3 ± 0.4% v. 3.8 ± 0.6%, P < 0.05). Similar re-expansion rate has been recorded between HHP treated and untreated (86.6 v. 89.6%) vitrified blastocysts as well as hatching rates (53.3 v. 48.3) and embryo cell number (131 ± 4.6 v. 139 ± 5.8). Conversely, HHP treatment significantly decreased picnotic index of vitrified treated embryos compared with control (2.3 ± 0.9 v. 4.8 ± 0.5, P < 0.05). We concluded that HHP treatment significantly improved the quality of in vitro-produced ovine blastocysts by increasing their cell number and reducing the proportion of picnosis. The HHP treatment exerted a positive effect in vitrified blastocysts, decreasing the number of picnotic nuclei. Further studies are needed to evaluate the possible beneficial effect at the molecular level of HHP treatment after vitrification and also to test if different interval times between HHP treatment and embryo cryopreservation could affect embryo response.

Haemoglobin phenotypes of the wild European mouflon sheep living on the island of Sardinia

Haemoglobin (Hb) phenotypes have been studied in 100 wild European mouflons living on the island of Sardinia by means of isoelectric focusing (pH 6.7-7.7 range) of the native tetramers, acid-urea-Triton gel-electrophoresis, and reversed-phase HPLC of globin chains. The result indicates the presence of two beta-globin alleles one of which, corresponding to the beta B, being the most common (f = 0.94). None were carriers of the earlier described Hb A. The new Hb was provisionally named Hb M. Severely anaemic mouflons were able to synthesize Hb C at expense of the Hb B alone, thus suggesting structural and physiological homologies between mouflon beta B and sheep beta A globin genes, and between the newly observed beta M allele and the beta B of the domestic Sardinian sheep.

177 EMBRYOS PRODUCED IN VITRO FROM PREPUBERTAL LAMB AND ADULT SHEEP OOCYTES DISPLAY DIFFERENT GENE EXPRESSION PATTERNS

Breeding from prepubertal females reduces the generation interval and increases the rate of genetic gain in animal breeding programs. Despite considerable interest in this technology, its efficiency remains too low. Reduced in vitro and in vivo developmental competence of oocytes derived from prepubertal animals have been reported in association with morphologic, metabolic, and biochemical differences. The objective of this study was to compare the relative transcript abundance of a panel of developmentally important genes in embryos produced in vitro from prepubertal lamb and adult sheep oocytes. Cumulus–oocyte complexes derived from ovaries of regularly slaughtered 1-month-old prepubertal and adult sheep were matured in vitro in TCM-199 with 10% heat-treated oestrus sheep serum (OSS), 10 μL mL–1 of FSH/LH and 100 μm cysteamine, in 5% CO2 in air at 38.5°C for 24 h. Matured oocytes were fertilized with frozen–thawed ram semen in SOF medium + 2% OSS for 22 h at 38.5°C and 5% CO2, 5% O2, and 90% N2 atmosphere. Zygotes were cultured in SOF + AA + 0.4% BSA in 5% CO2 and 5% O2 up to blastocyst stage. Three groups of 10 blastocysts for each class (4 replicates) were used to quantify the relative expression of 15 genes by reverse transcription followed by real-time PCR. The relative quantification of the transcripts was performed with the 2-ddCt method (Livak and Schmittgen 2001 Methods 25, 402–408), after normalization against the β-actin expression levels. The analysis of gene expression evidenced higher relative abundance for Aquaporin 3, P34Cdc2, cyclin B, Oct4, H2A.Z, and Nanog transcripts in sheep embryos than in prepubertal-derived ones (ANOVA; P < 0.05), while interferon τ and insulin-like growth factor (IGF) 2 mRNAs were significantly more abundant in lamb-derived embryos (ANOVA; P < 0.01). No differences were observed for the remaining analyzed transcripts (BAX, IGF2R, heat shock protein 90, NaKATPase, E-cadherin, PAP, and glyceraldehyde 3-phosphate dehydrogenase). Overall, results show that embryos produced in vitro from prepubertal and adult oocytes display different patterns of expression at the blastocyst stage. Such difference may be related to the generally observed reduced in vitro and in vivo developmental competence. Increased understanding of the gene expression status during pre-implantation development may provide valuable insights into the molecular basis underlying the very early stages of life and an opportunity for optimizing in vitro embryo production systems.

Use of a neuroleptic in assisted reproduction of the critically endangered Mohor gazelle (Gazella dama mhorr)

Stress is a limiting factor in assisted reproduction in wild animals maintained in captivity and measures to reduce it should improve reproductive success. The effect of the long-acting neuroleptic (LAN) perphenazine enanthate was assessed on ovarian stimulation for the recovery of immature oocytes from Mohor gazelle (Gazella dama mhorr) and their subsequent in vitro maturation, fertilization and embryo culture. The viability of embryos after transfer was also examined. Perphenazine enanthate decreased activity levels and facilitated handling of treated animals when compared to controls. LAN-treated animals showed a more regular pattern of respiratory and heart rates and body temperature than controls; no major differences were found in hematological and biochemical parameters between groups. Perphenazine-treated females had lower plasma cortisol levels during the days of intense handling. No significant differences were found in the number of punctured follicles and recovered oocytes between groups. The percentage of mature oocytes per female was significantly higher in the LAN-group. Fertilization and cleavage rates were not significantly different between groups. Embryos developed in culture but none reached the blastocyst stage, and those transferred to the oviduct of synchronized recipients did not develop to term. In conclusion, treatment of females with perphenazine enanthate during ovarian stimulation did not have negative effects on maturation, fertilization and embryo development in vitro. Moreover, an increase in oocyte maturation rate per female was observed. Thus, the use of LANs could be useful to alleviate the effects of handling-stress during assisted reproductive procedures in wild ungulates.

In vitro oocyte maturation, fertilization and culture after ovum pick-up in an endangered gazelle (Gazella dama mhorr)

The recovery of immature oocytes followed by in vitro maturation, fertilization and culture (IVMFC) allows the rescue of biological material of great genetic value for the establishment of genetic resource banks of endangered species. Studies exist on sperm cryopreservation of endangered Mohor gazelle (Gazella dama mhorr), but no work has been carried out yet on oocyte collection, fertilization and culture in this or related species. The purpose of this study was to develop a protocol for ovarian stimulation for the recovery of oocytes and subsequent IVMFC in the Mohor gazelle using frozen-thawed spermatozoa. Ovum pick-up was performed after ovarian stimulation with a total dose of 5.28 mg of ovine FSH. A total of 35 oocytes were recovered from 56 punctured follicles (62%) (N=6 females). Out of 29 cumulus-oocyte complexes matured in vitro, 3% were found at germinal vesicle stage, 7% at metaphase I, 21% were degenerated, and 69% advanced to metaphase II. Fertilization and cleavage rates of matured oocytes were 40 and 30%, respectively. Embryos cleaved in vitro up to the 6-8 cell stage but none progressed to the blastocyst stage, suggesting the existence of a developmental block and the need to improve culture conditions. Although more studies are needed to improve hormonal stimulation and oocyte harvesting, as well as IVMFC conditions, this study demonstrates for the first time the feasibility of in vitro fertilization with frozen-thawed semen of in vitro matured oocytes collected by ovum pick-up from FSH-stimulated endangered gazelles.

Morphological and biochemical analysis of immature ovine oocytes vitrified with or without cumulus cells

The cryopreservation of oocytes is an open problem as a result of their structural sensitivity to the freezing process. This study examined (i) the survival and meiotic competence of ovine oocytes vitrified at the GV stage with or without cumulus cells; (ii) the viability and functional status of cumulus cells after cryopreservation; (iii) the effect of cytochalasin B treatment before vitrification; (iv) chromatin and spindle organization; (v) the maturation promoting factor (MPF) and mitogen-activated protein kinase (MAPK) activity of vitrified oocytes after in vitro maturation. Sheep oocytes were vitrified at different times during in vitro maturation (0, 2, and 6 h) with (COCs) or without cumulus cells (DOs). After warming and in vitro maturation, oocytes denuded at 0 h culture showed a significantly higher survival and meiotic maturation rate compared to the other groups. Hoechst 33342/propidium iodide double staining of COCs and microinjection of Lucifer Yellow revealed extensive cumulus cell membrane damage and reduced oocyte-cumulus cell communications after vitrification. Cytochalasin B treatment of COCs before vitrification exerted a negative effect on oocyte survival. After in vitro maturation, the number of vitrified oocytes with abnormal spindle and chromatin configuration was significantly higher compared to control oocytes, independently of the presence or absence of cumulus cells. The removal of cumulus cells combined with vitrification significantly decreased the MPF and MAPK levels. This study provides evidence that the removal of cumulus cells before vitrification enhances oocyte survival and meiotic competence, while impairing the activity of important proteins that could affect the developmental competence of oocytes.

Effect of vitrification solutions and cooling upon in vitro matured prepubertal ovine oocytes

The vitrification procedure effects on molecular and cytoskeletal components and on developmental ability of in vitro matured prepubertal ovine oocytes were evaluated. MII oocytes were divided into three groups: (1) vitrified in cryoloops (VTR); (2) exposed to vitrification solutions and rehydrated without being plunged into liquid nitrogen (EXP); (3) without further treatment as a control (CTR). Two hours after treatment, membrane integrity, assessed by propidium iodide/Hoechst staining, was lower in VTR and EXP than in CTR (70.6%, 88.5% and 95.2%, respectively). Cleavage rate after fertilization was statistically different among all groups (21.4%, 45.4% and 82.8% for VTR, EXP and CTR groups respectively; P<0.01). Blastocyst rate in VTR (0.0%) and EXP (2.8%) groups was lower (P<0.01) than in CTR (22.8%). Maturation promoting factor activity was lower (P<0.01) in VTR and EXP groups compared with CTR at both 0 h (82.2%, 83.6% and 100%, respectively) and 2 h (60% and 53.9% and 100%, respectively) after warming. Immediately after warming VTR and EXP oocytes showed a lower rate of normal spindle and chromosome configuration compared to CTR (59.1%, 48.0% and 83.3%, respectively; P<0.01). After 2 h of culture in standard conditions the percentage of oocytes with normal spindle and chromosome organization decreased in both VTR and EXP groups compared to CTR (36.4%, 42.8% versus 87.5%, respectively). In conclusion the exposition to the tested cryoprotectant solution and the vitrification in cryoloops modified cytoskeletal components and alter biochemical pathways that compromise the developmental capacity of prepubertal in vitro matured ovine oocytes.

A Low Oxygen Atmosphere during IVF Accelerates the Kinetic of Formation of In Vitro Produced Ovine Blastocysts

Among the factors that affect in vitro embryo development, oxygen atmosphere is considered to be of great influence. In this study, we evaluated the influence of two different oxygen atmospheres during in vitro fertilization (IVF) of ovine oocytes on their developmental capacity and quality assessed by cryotolerance. Cumulus oocyte complexes derived from ovaries of slaughtered sheep were matured in vitro and subsequently fertilized under low (5%) or high (20%) oxygen atmospheres, and cultured in SOF + aa + 0.4% BSA in 5% CO2 and 5% O2 up to blastocyst stage. The cleavage rates obtained in the fertilization system at 20% O2 were significantly higher than those obtained in the 5% O2 fertilization system (61.2% vs 50.8%; p < 0.01). The distribution of cleaved oocytes at 22, 26 and 40 h of culture intervals was not different in the low or high O2 atmosphere (31.4%, 26.4% and 42.1% vs 28.0%, 29.3% and 42.7% respectively). Blastocysts output on the 6th day post-fertilization (dpf) was significantly higher when oocytes were fertilized under 5% O2 concentration (63.04% in 5% O2 vs 47.36% in 20% O2), while on the 7th dpf the higher number of blastocysts was obtained in the 20% O2 system (35.10%.in 20% O2 vs 26.09% in 5% O2). After vitrification no differences were observed between low or high oxygen atmosphere in the viability rates of blastocysts obtained on day 6 (93.6% vs 96.5%), on day 7 (46.3% vs 41.7%) and on day 8 (11.1% vs 6.6%). After differential staining, no significant differences were observed in the total cell number and inner cell mass and trophoblastic cells ratio of blastocysts produced on 6 dpf (189.6 +/- 51.3 and 0.260 +/- 0.07 vs 223.3 +/- 45.6 and 0.277 +/- 0.09), on 7 dpf (168.3 +/- 25.1 and 0.316 +/- 0.06 vs 172.1 +/- 33,6 and 0.320 +/- 0.06) and on 8 dpf (121.2 +/- 23,8 and 0.302 +/- 0.03 vs 117.0 +/- 35.1 and 0.313 +/- 0.04) under low or high oxygen atmosphere respectively). In conclusion, our data suggest that low oxygen atmosphere during IVF affects positively the production of high quality ovine blastocysts.

108 EFFECT OF CAFFEINE TREATMENT ON MPF AND MAPK ACTIVITY AND PARTHENOGENETIC ACTIVATION OF VITRIFIED MII OVINE OOCYTES

Cryopreservation of oocytes is still an open problem because of their structural sensitivity to the cooling and freezing process. Meiotic spindle disorganization and chromosomal aberrations are frequently observed, possibly due to the alteration of molecules involved in the meiotic cell cycle regulation and spindle formation such as maturation promoting factor (MPF) and mitogen-activated protein kinase (MAPK). In this study we treated MII ovine oocytes with caffeine before vitrification and we evaluated the effect on (1) MPF and MAPK activity and (2) oocyte spontaneous or induced parthenogenetic activation. Oocytes from slaughterhouse sheep ovaries were in vitro-matured for 21 h in TCM-199 + 10% FCS + FSH, LH + cysteamine, and then incubated for 2 h with (+) or without (-) caffeine (20 mM; Sigma-Aldrich, Milan, Italy). Thereafter, MII oocytes were vitrified by equilibration with 10% ethylene glycol (EG) + 10% DMSO (30 s), exposure to 20% EG + 20% DMSO + 0.5 M sucrose (20 s), loading onto the Cryotop, and plunging into liquid nitrogen. After warming, groups of (+) and (-) oocytes were used for MPF and MAPK assays or (A) cultured in TCM-199 + 10% FCS for 24 h to evaluate spontaneous parthenogenetic activation, or (B) activated with ionomycin (5 �M, 5 min; Sigma) and cultured as in A. Fresh (+) and (-) oocytes were processed as above as controls. All oocytes were stained with glycerol-Hoechst 33342 to evaluate chromatin configuration. After vitrification, similar rates of spontaneous parthenogenetic activation between (+) and (-) oocytes (12/38, 31.6% vs. 16/38, 42.1%, respectively) were observed. However, the number of oocytes with a regular chromatin configuration in the MII plate was significantly higher (P &lt; 0.01; chi-square test) in vitrified (+) compared to (-) oocytes (22/38, 57.9% vs. 4/38, 10.5%, respectively). After incubation with ionomycin, a significantly (P &lt; 0.05) lower proportion of activated oocytes was recorded in the (+) compared to the (-) group (19/49, 38.8% vs. 32/53, 60.4%, respectively). In the control oocytes, the treatment with caffeine significantly (P &lt; 0.01) decreased the activation rate after ionomycin stimulation compared to that of non-caffeine-treated control oocytes (6/51, 11.8% vs. 28/46, 60.9%, respectively), but no difference in spontaneous parthenogenetic activation was found between (+) and (-) groups (6/38, 15.8% vs. 6/46, 13.0%, respectively). Analysis of MPF and MAPK activities showed that caffeine treatment significantly increased (P &lt; 0.05; ANOVA) the levels of the 2 kinases of vitrified MII oocytes, and these values are comparable to those of MII fresh oocytes. These results show that caffeine can increase MPF and MAPK activity in vitrified ovine oocytes and thus may contribute toward maintaining a regular chromatin organization in the MII plate and toward the decrease in parthenogenetic iomomycin-induced activation. Experiments are in progress to test the efficiency of caffeine treatment to improve the development competence of vitrified MII ovine oocytes.

199 EVIDENCE FOR A NOVEL PERTURBATION IN CLONED FETUSES: MITOCHONDRIAL DNA DEPLETION

The reported mtDNA turnover and plasticity of mtDNA copy number in mammalian zygotes and early embryos (McConnel and Petrie 2004 Reprod. Biomed. Online 9, 418–424) have revealed a potential for adverse effects of in vitro embryo techniques on mtDNA and mitochondrial function. We explored the effects of in vitro fertilization (IVF) and somatic cell nuclear transfer cloning (NT) on relative mtDNA amount and phenotype in viable bovine fetuses recovered 80 days after the initiation of embryonic development (Hiendleder et al. 2004 Biol. Reprod. 71, 217–223). We sampled brain, liver, and skeletal muscle to represent all 3 embryonic germ layers, and compared IVF-fetuses (n = 24), NT-fetuses (n = 23), and fetuses generated by in vivo insemination (controls, n = 24). This experimental approach allowed us to distinguish abnormalities specific to cloning from more general consequences of in vitro embryo manipulation. We analyzed relative mtDNA amounts by real-time quantitative PCR (qPCR) and amplified a segment of the mtDNA control region that was normalized against the nuclear gene complement C3. ANOVA (SPSS 13.0) of qPCR data and phenotypic parameters revealed significant effects of fetus group on mtDNA amount in liver (P &lt; 0.05) and muscle (P &lt; 0.01), and on fetus (P &lt; 0.001), heart (P &lt; 0.001), and liver (P &lt; 0.001) weights. The mtDNA amount in all tissues from IVF-fetuses was normal, but mtDNA levels in liver (-23%; P &lt; 0.05) and muscle (-24%; P &lt; 0.01) of NT-fetuses were significantly lower than in controls. Fetuses derived from IVF- or NT-embryos were similar in weight and displayed fetal overgrowth (+19% and +22%; P &lt; 0.001), but only the NT-fetuses were affected by disproportionate hepatomegaly and cardiomegaly with 31% and 49% increases (ANCOVA; P &lt; 0.001) in their respective organ weights. This further partitioned NT-fetuses from IVF-fetuses and identified symptoms that are also encountered in mitochondrial DNA depletion syndromes (MDDS): a phenotypically heterogeneous group of human disorders characterized by loss of mtDNA from various tissues during development and associated respiratory chain dysfunction. The MDDS phenotypes have mainly been classified into a hepatocerebral (MIM 251880) or myopathic (MIM 609560) form, and neonates and infants display a spectrum of abnormalities, including hepatomegaly and cardiomegaly, that are similar or identical to phenotypic abnormalities commonly encountered in cloned mammals. Reduced mtDNA amounts in NT-fetuses could stem from perturbation of mtDNA during the reported turnover period, or be a secondary effect of epigenetic change in nuclear-encoded genes involved in mtDNA replication and stability. Mitochondrial transcription factor A (TFAM) is regulated by CpG methylation in vitro, but our real-time RT-PCR quantification of TFAM transcript in liver and muscle of a subset of NT- and control fetuses failed to detect significant differences (P &gt; 0.10). In conclusion, our observed reduction of mtDNA amount in cloned fetuses provides the molecular basis for a mitochondrial perspective on pathological phenotypes of cloned mammals, and may explain similarities to mitochondrial disease in human.

261 PHENOTYPIC CHARACTERISTICS AND TISSUE-SPECIFIC IGF2R/IGF2 EXPRESSION PARTITION BOVINE FETAL OVERGROWTH ASSOCIATED WITH IN VITRO FERTILIZATION AND SOMATIC CELL NUCLEAR TRANSFER CLONING

Large offspring syndrome (LOS) in ruminants refers to various poorly defined organ pathologies that are associated with fetal overgrowth and are encountered after a range of embryo manipulations (Rhind et al. 2003 Nat. Rev. Genet. 4, 855–864). We have explored the effects of somatic cell nuclear transfer (NT) and in vitro fertilization (IVF) on phenotype and relative expression levels of 2 imprinted genes important for fetal growth, insulin-like growth factor 2 (IGF2) and its receptor (IGF2R). Viable bovine fetuses were recovered near the end of the first trimester of pregnancy, and skeletal muscle, liver, and lung were sampled for real-time RT-PCR analyses. We compared NT-fetuses (n = 23), IVF-fetuses (n = 24), and fetuses generated by artificial insemination (controls, n = 24) in order to separate abnormalities specific to cloning from effects of in vitro gamete and embryo manipulation. Nuclear transfer and IVF-fetuses, both derived from embryos cultured with 10% estrous cow serum, demonstrated significant fetal overgrowth. The increase in body weight relative to controls was similar for both groups (+22%, P &lt; 0.001, and +19%, P &lt; 0.001, respectively), but further analyses clearly separated the NT phenotype from the IVF phenotype. The NT-fetuses were characterized by a shorter crown-rump length but larger thorax circumference, which consequently produced a significantly reduced fetus length-to-thorax circumference ratio in comparison with IVF-fetuses and controls (-9% each, P &lt; 0.0001). Absolute liver weight was significantly increased in NT- and IVF-fetuses (+62%, P &lt; 0.0001, and +20%, P &lt; 0.0001, respectively), but relative liver weight was increased only in NT-fetuses (+30%, P &lt; 0.0001). Heart (P&lt; 0.0001) and kidney (P = 0.0003) mass also showed disproportionate organomegaly in NT-fetuses only, but relative lung weight (NT, P = 0.263; IVF, P = 0.317) was not affected by either embryo technique. Transcript abundance for IGF2 and IGF2R genes were strongly correlated in muscle (r = 0.835, P &lt; 0.0001), liver (r = 0.922, P &lt; 0.0001), and lung (r = 0.772, P &lt; 0.0001). The IGF2 and IGF2R transcript levels in muscle tissue from NT-fetuses were markedly reduced in comparison with both IVF-fetuses (-31%, P &lt; 0.0001, and -41%, P &lt; 0.0001, respectively) and controls (-31%, P &lt; 0.0001, and -41%, P &lt; 0.0001, respectively). In liver tissue, however, transcript levels for NT-fetuses were similar to those of controls, and IVF-fetuses showed markedly elevated, albeit non-significant, IGF2 (+86%, P = 0.0591) and IGF2R (+54%, P = 0.1305) mRNA levels relative to controls. Our data demonstrate that seemingly similar syndromes caused by NT or IVF procedures can be clearly partitioned with respect to phenotype and IGF2/IGF2R expression.

Vitrification devices affect structural and molecular status of in vitro matured ovine oocytes

We evaluated the effect of three different cryodevices on membrane integrity, tubulin polymerization, maturation promoting factor (MPF) activity and developmental competence of in vitro matured (IVM) ovine oocytes. IVM oocytes were exposed during 3 min to 7.5% DMSO and 7.5% ethylene glycol (EG) in TCM199 and 25 sec to 0.5 M sucrose, 16.5% DMSO and 16.5% EG, loaded in open pulled straws (OPS), cryoloops (CL) or cryotops (CT) and immersed into liquid nitrogen. Untreated (CTR) or exposed to vitrification solutions but not cryopreserved (EXP) oocytes were used as controls. After warming, double fluorescent staining evidenced a lower membrane integrity in vitrified groups compared to the controls (P < 0.01). After in vitro fertilization and culture OPS and CL groups evidenced a lower cleavage rate than CT and controls (P < 0.01) while blastocysts were obtained only in CL and EXP, at a lower rate than CTR (P < 0.01). All vitrified groups showed alterations in spindle conformation, which were partially recovered in OPS and CT groups. MPF activity was lower in treated compared to CTR and CT showed the lowest value (P < 0.01). After 2 hr culture MPF activity was restored in all groups except CT. Parthenogenetic activation was higher in treated compared to CTR and CT evidenced the highest value. Our results indicate that cryodevice influences not only the ability to survive cryopreservation but is also associated with molecular alterations which affect developmental competence.

A new selection criterion to assess good quality ovine blastocysts after vitrification and to predict their transfer into recipients

The feasibility to accurately select viable embryos would be valuable for improving pregnancy rates and avoiding futile transfer attempts. The aim of our study was to assess if in vitro-produced embryo quality could be determined by the timing of blastocoelic cavity re-expansion after vitrification, warming, and in vitro culture using sheep as a model. Blastocysts were produced in vitro, vitrified/warmed, and cultured in TCM-199 plus 10% FCS for 72 hr. Embryos were divided into two groups: re-expanded within 8 hr (A) and from 8 to 16 hr (B) of IVC after warming. Fast re-expanded blastocysts showed higher in vitro hatching rates and total cell number calculated on the hatched blastocysts compared with slow re-expanded ones (P < 0.01). Peroxide status evaluation (P < 0.01) and TUNEL test (P < 0.05) revealed a higher number of positive cells in group B compared with group A. The quantitative analysis of protein synthesis revealed a higher synthesis in fast compared with slow re-expanded embryos (P < 0.05). Quantitative RT-PCR showed that 90-kDa Heat Shock Protein beta was more expressed in group A than in group B (P < 0.05), while the quantity of P34(cdc2), Cyclin b, Aquaporin 3, Na/K ATPase, and Actin did not differ between the two groups. Pregnancy rates after transfer to synchronized recipients were higher in fast compared to slow re-expanded blastocysts (P < 0.05). Our results evidenced that timing of blastocoelic cavity re-expansion after vitrification/warming and in vitro culture can be considered as a reliable index of in vitro produced embryo quality and developmental potential.

258 EXPRESSION PATTERN OF THE MATERNAL FACTOR ZYGOTE ARREST 1 (ZAR1) GENE IN OVINE OOCYTES AND PRE-IMPLANTATION EMBRYOS

Zygote arrest 1 (ZAR1) is an ovary-specific maternal factor that plays essential roles during the oocyte-to-embryo transition. It is evolutionary conserved in vertebrates, and the protein is characterized by the presence of a homeobox zing finger domain, suggesting its role in transcription regulation. Discovered in mice (Wu et al. 2003 Nat. Genet. 33, 187-191), its expression pattern has been analyzed in oocytes and pre-implantation embryos in mice, cattle, and pig (Pennetier et al. 2004 Biol. Reprod. 71, 1359-1366; Brevini et al. 2004 Mol. Reprod. Dev. 69, 375-380; Reprod. Biol. Endocrinol. 21, 4-12). Because no information on Zar1 ortholog in the ovine species is available, the aim of this study was to assess its presence and to analyze its expression pattern in oocytes and pre-implantation embryos. Reverse transcription-polymerase chain reaction (RT-PCR) was performed in germinal vesicle (GV) and IVM metaphase II (MII) oocytes, and, following IVFC, in 2- (2C), 4- (4C), 8- (8C), and 12-16- (12C-16C) cell embryos, morulae, and blastocysts. Primers were designed on the basis of bovine and swine conserved sequences and contained an intron-spanning region. The PCR product was sequenced and the alignment, performed with BLAST (www.ncbi.nlm.nih.gov/BLAST/), confirmed its homology with the Zar1 orthologous genes present in public databases, sharing 98%, 92%, and 89% nucleotide identity with the bovine, porcine, and human sequences, respectively. Real-time PCR revealed that Zar1 is present at its highest level in the GV oocyte, has a major decrease at the MII stage (around 10-fold), remains constant in the embryo first cleavage steps (2C-4C), drops again at the 8C stage (around 30-fold), and disappears in morulae and blastocysts. Our data demonstrate that a Zar1 ortholog is present in the ovine species. Results are also in accordance with the expression patterns characterized in other mammalian species and suggest that Zar1 transcript in the ovine oocyte may be necessary for normal female reproduction in the transition from oocyte to embryonic life.

Inbreeding and Reproduction in Endangered Ungulates: Preservation of Genetic Variation through the Organization of Genetic Resource Banks

There is a constant increase in the number of species suffering marked reductions in population size. This reduction in size and the lack of genetic flow may lead to a decrease in genetic variability and to matings between close relatives (i.e. inbreeding) with an ensuing reduction in fitness. It is thus important to understand the mechanism underlying the deleterious effects of inbreeding and to develop reproductive biotechnologies that will allow the reduction of inbreeding depression by facilitating gene exchange between populations. The study of three endangered species of gazelles, Cuvier's gazelle (Gazella cuvieri), Mohor gazelle (Gazella dama mhorr) and dorcas gazelle (Gazella dorcas neglecta) has revealed that inbreeding negatively affects several semen parameters (motility, sperm morphology, acrosome integrity). Semen cryopreservation has been achieved in the three species but success varies depending on the diluent employed and the level of inbreeding. Artificial insemination of Mohor gazelles have led to the birth of the first gazelle born using frozen-thawed semen but improvements are needed before this technology can be applied on a routine basis for the genetic management of the populations. Collection of oocytes after ovarian stimulation, followed by in vitro maturation, fertilization and culture has met with some initial success in the Mohor gazelle. These, together with other reproductive technologies, will offer an invaluable help in preserving the maximum of genetic diversity of these and related endangered ungulate species.

Relations between relative mRNA abundance and developmental competence of ovine oocytes

The present study was conducted to investigate the relation between in vitro developmental competence and the expression of a panel of developmentally important genes in germinal vesicle (GV) stage oocytes. One-month-old prepubertal and adult sheep oocytes were used as models of low and high quality gametes, respectively. Cumulus-oocyte complexes (COCs) derived from lambs and ewes were in vitro matured and fertilized, and their cleavage rate at 22, 26, and 32 hr post fertilization and the blastocyst yield were observed to assess their developmental potential. In parallel, the relative abundance (RA) of 11 genes was analyzed by semi-quantitative Reverse Transcription Polymerase Chain Reaction (RT-PCR) assay in the two groups of oocytes. We observed similar maturation and fertilization rates in the two groups, but a significant lower rate of cleaved prepubertal oocytes (P < 0.05), a general delay in the timing of their first division (P < 0.01), and a lower blastocysts production (P < 0.05). The analysis of gene expression evidenced no difference in the RA of four transcripts [superoxide dismutase (SOD), ubiquitin, beta-actin, cyclin B] in the two classes of oocytes, but a statistically lower RA of seven messenger RNAs (mRNA) [Na(+)K(+)ATPase, p34(cdc2), Glucose-transporter I (Glut-1), Activin, Zona Occludens Protein 2 (PanZO2), Poli(A)Polymerase (PAP), E-Cadherin (E-Cad)] in the prepubertal oocytes compared to the adult ones. The present data show for the first time in the ovine species that the lower developmental competence is associated with deficiencies in the mRNAs storage during the oocyte growth.

321 OOCYTE DIAMETER INFLUENCES THE MEIOTIC RESUMPTION AND PROGRESSION INDUCED BY OKADAIC ACID IN DOG

The acquisition of meiotic competence, in the bitch as in many other mammalian species, is related to the oocyte diameter. This study was designed to determine the effect of okadaic acid (OA), a potent inhibitor of seronine/threonine 1 and 2A phosphatases, on meiotic resumption and progression in canine oocytes with different diameters. In two experiments, healthy cumulus-oocytes complexes were collected from ovaries of bitches at various stages of the estrous cycle and divided, by diameters, into three treatment groups for in vitro maturation: <110 �m, 110-120 �m, and >120 �m. In Experiment 1, oocytes were pre-incubated for 1 h in TCM-199 + 20% estrous canine serum (SCE) + cysteamine + OA (0.5 �M). Then, oocytes were cultured for 48 h in the same medium without OA at 38.5�C, 5% CO2 in air. As a control group, oocytes were matured in vitro under the same conditions but without pre-incubation with OA. In Experiment 2, to determine if the effect of OA is mediated by cumulus cells, >120 �m oocytes were denuded from cumulus cells, incubated with or without OA, and cultured in vitro as previously described. At 48 h, all oocytes were stained and fixed with glycerol-Hoechst 33342 to assess the stage of meiotic maturation. In Experiment 1, OA induced a significantly higher incidence of meiotic resumption in oocytes <110 �m (16/108, 14.8%; P < 0.05) and 110-120 �m (70/130, 53.8%; P < 0.01) as compared to that of oocytes in the <110 �m and 110-120 �m control groups (2/58, 3.4%; 24/82, 29.3%). The percentage of oocytes in the 110-120 �m OA group that underwent in vitro maturation to metaphase II (MII) was significantly higher than in the 110-120 �m control group (18/130, 13.8% vs. 4/82, 4.9%, respectively; P < 0.05). In contrast, smaller oocytes (<110 �m) did not develop to MII with or whitout OA. Meiotic resumption rate of >120 �m OA group (64/78, 82.0%) was similar to the >120 �m control group (56/72, 77.8%), but a significantly higher proportion of the oocytes pre-incubated with OA progressed to MII than did the control oocytes (40/78, 51.3% vs. 12/72, 16.7%, respectively; P < 0.01). Low rates of meiotic resumption were observed in denuded >120-�m oocytes with (7/63, 11.1%) or without OA (7/55, 12.7%) and none of them progressed to MII. In conclusion, the results of the present study indicate that treatment of fully grown (>120 �m) oocytes with okadaic acid at the onset of in vitro maturation can result in a higher frequency of meiotic maturation than previously reported. Also, we determined that the beneficial effect of okadaic acid was mediated by cumulus cells.

230 IN VITRO MATURATION OF OOCYTES FROM ENDANGERED DORCAS GAZELLE (GAZELLA DORCAS NEGLECTA)

In vitro maturation of oocytes recovered from dead animals provides an opportunity for rescuing genetic material for biodiversity conservation. The dorcas gazelle (Gazella dorcas) is regarded by the World Conservation Union (IUCN) as ‘vulnerable’ but the subspecies G. dorcas neglecta is thought to be endangered due to excessive hunting. A captive breeding program for dorcas gazelles has been developed at the Estacion Experimental de Zonas Aridas (CSIC) in the South of Spain where efforts have so far concentrated on natural breeding and on the development of sperm cryopreservation protocols. The aim of the present study was to explore the possibility of recovering and maturing in vitro healthy oocytes from animals that die suddenly for the establishment of a program to rescue female gametes. Ovaries of a dorcas female that died unexpectedly were collected about 7 h after death of the animal. Cumulus–oocyte complexes (COCs) were recovered by slicing the ovaries. Collection and washing of COCs were performed in warmed TCM-199-HEPES with antibiotics and polyvinyl alcohol. Degenerated oocytes or those with expanded cumulus cells were removed. A total of 15 COCs were cultured in TCM-199 with 10% heat-treated fetal calf serum, 10 μg/mL ovine FSH/LH, 1 µg/mL estradiol, and 0.1 mg/mL glutamine at 38.5°C under 5% CO2/air with high humidity. After 24 h of culture, matured oocytes, as revealed by the presence of a polar body, were activated with 7% ethanol for 10 min and further incubation for 3 h. Meiotic progression and activation were evaluated by staining with Hoechst 33342 and propidium iodide (1 μg/mL each) and visualization under a fluorescence microscope. Results at the end of incubations showed that 4/15 oocytes were degenerated, 4/15 were arrested at the MI stage, and 7/15 (46.7%) progressed to the MII stage. One oocyte was found to be at the 2-cell stage but it could not be established whether this was the result of the activation method used. These results demonstrate that it is possible to recover viable oocytes several hours after death and rescue them for subsequent in vitro maturation and fertilization. More studies are needed to characterize suitable conditions for oocyte maturation, fertilization, and culture in the dorcas gazelle. This would, in turn, help in the effort to rescue biomaterials from wildlife for generating offspring. This work was supported by the Spanish Ministry of Education and Science (REN 2003–01587) and Acciones Integradas (HI20030336).

216 IN VITRO OOCYTE MATURATION, FERTILIZATION, AND CULTURE AFTER LAPAROSCOPIC OVUM PICK-UP IN AN ENDANGERED GAZELLE (GAZELLA DAMA MHORR)

The recovery of immature oocytes followed by in vitro maturation, fertilization and culture (IVMFC) allows the rescue of biological material of great genetic value for the establishment of genetic resource banks. Studies have been carried out on endangered Mohor gazelle sperm cryopreservation (Garde et al. 2003 Biol. Reprod. 69, 602-611), but there are no studies on oocytes in this species. The purpose of this work was to develop a protocol for ovarian stimulation for the recovery of oocytes and subsequent IVMFC. The study was conducted using six reproductively mature female Mohor gazelles from the breeding herd at the Estacion Experimental de Zonas Aridas. Animals were synchronized by insertion of controlled progesterone internal drug release (CIDR) devices for 14 days and removal of the devices on the day of ovum pickup (OPU). Follicular growth was stimulated by a total of 5.28 mg of oFSH (Ovagen, ICP, Auckland, New Zealand) given in four equal doses every 12 h. OPUs were performed (Berlinguer et al. 2004 Theriogenology 61, 1477-1486) on Day 15 from the beginning of treatment, and follicles were aspirated with a syringe and a 25G needle using TCM199-HEPES with 50 �g/mL streptomycin, 50 IU/mL penicillin, 0.1% polyvinyl alcohol, and 15 IU/mL heparin. Degenerated oocytes and those with expanded cumulus were removed. Oocytes were cultured in TCM-199 plus 10% FCS, 10 �g/mL ovine FSH/LH, 1 �g/mL estradiol, and 0.1 mg/mL glutamine at 38.5�C under 5% CO2/air and maximum humidity. Spermatozoa were cryopreserved in Tes-Tris with 5% egg yolk and 6% glycerol, and selected by swim-up in SOF medium. After 24 h sperm-oocyte coincubation (sperm concentration: 1 � 106/mL) in SOF with 2% estrus sheep serum under 5% CO2 5% O2 90% N2, presumptive zygotes were transferred to SOF with 0.4% BSA and amino acids under 5% CO2, 5% O2 90% N2 and cultured for 4 days. Oocytes and embryos were stained with Hoechst 33342 and propidium iodide (1 �g/mL each) and visualized under a fluorescence microscope. A total of 35 oocytes were recovered from 56 punctured follicles (62.5%). This recovery rate was similar to those in wildlife in earlier reports, but more studies are needed to improve hormonal stimulation and oocyte harvesting. Out of 29 cumulus-oocyte complexes matured in vitro, 3.5% were found at GV and 6.9% at MI; 20.7% were degenerated and 68.9% had advanced to MII. Fertilization and cleavage rates were 40% and 30%, respectively, of matured oocytes. Out of eight zygotes, six showed cleavage (ranging from 2 to 8 cells). None of the developing embryos progressed to the blastocyst stage, suggesting the existence of a developmental block and the need to improve culture conditions. Although more trials will help to improve IVMFC, this study demonstrates for the first time the feasibility of in vitro fertilization with frozen-thawed semen of in vitro matured oocytes collected by OPU from FSH-stimulated endangered gazelles. This work was supported by the Spanish Ministry of Education and Science (REN 2003-11587) and Acciones Integradas (HI20030336).

83 VITRIFICATION OF IMMATURE AND IN VITRO-MATURED HORSE OOCYTES

Few attempts have been carried out to cryopreserve equine oocytes, and an effective cryopreservation protocol is not defined yet. Studies were conducted to compare the viability of immature and in vitro-matured horse oocytes vitrified by the minimal volume cooling (MVC) cryotop vitrification method (Kuwayama et al. 2005 Reprod. BioMed. Online 11, 300–308). Oocytes were recovered from slaughterhouse ovaries and divided, on the basis of the morphology of cumulus cells, into cumulus-expanded (CE) and cumulus-compacted (CC) oocytes. Groups of CC and CE oocytes were vitrified immediately after recovery [germinal vesicle (GV) stage] or matured in vitro (IVM) and cryopreserved at the MII stage as follows: oocytes were incubated 30 min in TCM-199 + 20% FCS + 10% ethylene glycol (EG) + 10% DMSO, followed by 20 min in TCM-199 + 20% FCS + 20% EG + 20% DMSO + 0.25 M sucrose, loaded in cryotops (2 µL), and plunged into liquid nitrogen. Warming was performed at 38.5°C by washing the oocytes in TCM-199 + 20% FCS with decreasing sucrose concentrations (1.25 M, 0.62 M, 0.31 M). After warming oocytes cryopreserved at the GV stage were matured in vitro for 24 h (CE) or 36 h (CC) in TCM-199 + 10% FCS + FSH, LH each at (0.1 UI/mL) + cysteamine, fixed, and stained with glycerol-Hoechst 33342 to assess nuclear maturation. Oocytes vitrified at the MII stage were in vitro cultured for 2 h to evaluate their morphological survival on the basis of the presence of an intact zona pellucida and membrane. Nonvitrified oocytes undergoing the same maturation protocol were used as controls. Results (Table 1) indicated that the survival rate of oocytes vitrified at the GV stage, after IVM, was similar between CE and CC oocytes (43.6% vs 42.6%). Significantly (P < 0.01) higher numbers of vitrified CE MII oocytes (52.9%) survived, compared to CC (34.8%), after 2-h culture. The percentages of viable MII oocytes from CE and CC GV vitrified oocytes were 43.6% and 40.9% respectively and were comparable to those from vitrified MII oocytes (CE, 52.9%; CC, 34.8%) and control oocytes (CE, 56.4%; CC, 53.3%). In conclusion, the results of this study showed that vitrification by the MCV Cryotop method of horse oocytes at either the GV or the MII stage allows a similar number of viable mature oocytes to be recovered. Table 1. Maturation and survival rates of immature and mature equine oocytes vitrified by the MCV Cryotop method

325 ACTIVITY OF MATURATION-PROMOTING FACTOR (MPF) AND MITOGEN-ACTIVATED PROTEIN KINASES DURING IN VITRO MATURATION OF BUFFALO OOCYTES (BUBALUS BUBALIS)

The maturation promoting factor (MPF) and mitogen-activated protein kinases (MAPK) are the key regulators of both meiotic and mitotic cell cycles. The absence of data on the activity of the major cell cycle kinases in buffalo oocytes during meiotic progression provided the bases for this study. More specifically we assayed the MPF and MAP kinase activity of buffalo oocytes during meiosis. Abattoir-derived cumulus-oocyte complexes (COCs) with a compact, non-atretic cumulus and a homogeneous cytoplasm were utilized for the study. The COCs (n = 293, over four replicates) were matured in vitro in TCM-199 supplemented with 10% fetal calf serum (FCS), 0.2 mM sodium pyruvate, 0.5 �g/mL FSH, 5 �g/mL LH, 1 �g/mL 17�-estradiol, 50 �M of cysteamine, and 50 �g/mL kanamycin (B199). In vitro maturation (IVM) was carried out at 38.5�C under a controlled gas atmosphere of 5% CO2 in humidified air. At scale times during the culture (0, 3, 6, 9, 12, 15, 18, 21, 24 h) groups of oocytes were stained with Hoechst 33342 to assess chromatin configuration and stored according to the maturation stage (GV, GVDB, MI, and MII) at -80�C pending protein analysis. SDS-polyacrylamide gel electrophoresis wase performed using Laemmli discontinuous buffer system (Laemmli 1970 Nature 227, 680) with a 12% running gel. Groups of oocytes were analyzed for MPF activity (n = 65) by histone H1 kinase activity (Naito and Toyoda 1991 J. Reprod. Fertil. 93, 467-473) and for MAPK activity (n = 48) by myelin basic protein assays (Chesnel et al. 1995 Biol. Reprod. 52, 895-902). The activity of both MPF and MAP kinases was quantified by measuring the density of the bands on the autoradiographic film with a densitometer. Differences in the levels of the kinases among groups were analyzed by ANOVA. It was assumed that the value of MPF and MAPK was 100% in metaphase II (MII) stage oocytes. The lowest levels of MPF and MAPK activities were found in the oocytes at the GV (0-6 h post-IVM: 40% and 17.2%, respectively) and at the GVBD (6-9 h post-IVM: 41.2% and 18%) stages. The activities increased at metaphase I (MI) stage (9-15 h post-IVM) and at MII (21-24 post-IVM). Interestingly, although similar levels of MAP kinases were found at MI and MII stages (95.1% vs. 100%), MPF levels were significantly lower (P < 0.01) at the MI stage compared to those detected at MII (82.8% vs. 100%). The fluctuations of the MPF levels in buffalo appear different compared to those observed in other species; in particular, no differences were recorded between the GV and the GVBD stages whereas a significant increase of the MPF levels was found at MII compared to the MI stage. It seems that MPF and MAPK could differently guide meiotic resumption and progression to the MII arrest in this species. To our knowledge, this is the first report on biochemical analysis of the cell cycle regulation in buffalo oocytes.

Endometriosis of the round ligament: description of a clinical case and review of the literature

We report a case of endometriosis of the round ligament in a 29-year-old woman, who complained of a lump with a diameter of about 2.5 cm in the right inguinal region, which increased in bulk and was accompanied by intense pain during the menstrual period. The clinical suspicion of inguinal endometriosis, supported by ultrasonography and Magnetic Resonance (MR), was confirmed by histological examination of the surgical specimen, which included the mass and the extraperitoneal segment of the round ligament. The authors conclude that the appearance of a lump in the inguinal region associated with subjective and objective changes of the lesion in relation to the menstrual cycle must raise the suspicion of endometriosis among the possible diagnoses.

Delay on the in vitro kinetic development of prepubertal ovine embryos

In the present study we characterize the developmental potential of prepubertal and adult ovine oocytes, analyzing the developmental speed to two-cell and blastocyst stages and its relationship with hatching from the zona pellucida, development after vitrification and the number and allocation of inner mass and trophoblastic cells. Prepubertal and adult ovine oocytes were matured and fertilized in vitro and first cleavage rates at 22, 26 and 32 h were recorded. Cleaved oocytes were cultured and blastocyst production was assessed at 6-9 days post-fertilization (dpf). Blastocysts from the two sources obtained on different days were divided into two groups: the first was vitrified, warmed and cultured in vitro to evaluate re-expansion of the blastocoelic cavity; blastocysts of the second were cultured separately to allow for hatching and count of trophoblastic and inner mass cells of hatched blastocysts by differential staining. We observed a significantly lower rate (P < 0.01) of cleaved prepubertal oocytes at 22 and 26 h after fertilization while it was higher (P<0.01) at 32 h than in the adult ones. Adult blastocyst production was significantly lower (P < 0.01) in prepubertal than in adult groups and began on the seventh dpf, later (P < 0.01) than in the adult group, where they appeared on the sixth dpf. Prepubertal blastocysts hatched at a lower rate than the adult ones (P < 0.01) and in both experimental groups faster blastocysts showed a higher (P < 0.01) hatching rate. Similarly, prepubertal derived blastocysts showed lower viability after vitrification (P < 0.01) compared to the adult counterparts, and in particular slower embryos had reduced viability after vitrification compared to the fastest (P < 0.01). Cell number was not different between blastocysts of both groups obtained at 6 and 7 dpf, which were higher (P < 0.01) than those obtained at 8 and 9 dpf. The ICM/trophoblast cell ratio was similar in 6- and 7-day obtained blastocyst and increased (P < 0.01) in those obtained 1 or 2 days later. These findings show that differences in kinetic development between prepubertal and adult derived embryos reflect differences in developmental capacity of the oocytes from which they derive and could be indicative of embryo quality.

106 GENOMIC IMPRINTING OF IGF2R IN TISSUES OF BOVINE FETUSES GENERATED BY ARTIFICIAL INSEMINATION OR IN VITRO FERTILIZATION

The insulin-like growth factor 2 receptor gene (IGF2R) is involved in fetal growth regulation. A study in sheep associated fetal overgrowth after in vitro embryo culture with abnormal DNA methylation and expression of IGF2R (Young et al. 2001 Nat. Genet. 27, 153–154). This suggested that abnormal IGF2R imprinting is a major cause of fetal overgrowth. To test this hypothesis in bovine fetuses, we developed a microsatellite marker for IGF2R from cDNA sequence data and screened 45 Day-80 fetuses generated in vivo, by artificial insemination (AI), or in vitro, by in vitro fertilization (IVF) procedures, for parent-of-origin-specific gene expression. A total of 17 fetuses were heterozygous, but available parental DNA samples showed that only 12 (8 AI, 4 IVF) allowed unambiguous discrimination of parental alleles. Parent-of-origin-specific allelic expression patterns indicated that bovine IGF2R was expressed predominantly from the maternal allele and thus imprinted in fetal heart, kidney, liver, lung, muscle, and cotyledon tissue. However, the relative amount of expression from the paternal allele was tissue-specific and ranged from 6.4 ± 0.8% in skeletal muscle up to 27.4 ± 0.9% in cotyledon (SPSS or 11.5, ANOVA, P < 0.001). Tissues that originated from the same germ layer showed similar allelic expression ratios whereas significantly different expression ratios (P < 0.05) were observed between tissues originating from different germ layers. Contrary to expectations from sheep data, there was no evidence for gross abnormalities in IGF2R imprinting in tissues from overgrown (n = 2) or normal sized (n = 2) IVF fetuses. However, relative paternal expression levels in several tissues showed significant relationships (P < 0.05–0.001) with growth parameters and pointed to subtle changes in paternal IGF2R expression in overgrown IVF fetuses. We thank W. Scholz and M. Weppert for excellent technical assistance.

278 MEIOTIC RESUMPTION IN VITRO OF CANINE OOCYTES: COMPARATIVE METHODS

In the bitch, mechanisms responsible for the meiotic resumption and progression of the oocytes are not known. In order to better understand cellular signals involved in canine oocyte meiosis, the present study was performed to investigate the ability of bitch oocytes to resume meiosis in vitro (1) after culture with okadaic acid (OA), and (2) after cell fusion with bovine MII oocytes. For this purpose oocytes were collected from ovaries of bitches undergoing ovariectomy. Ovaries were sliced repeatedly to release oocytes; only cumulus-oocytes complexes with two or more dense layer of cumulus cells, darkly granulated cytoplasm, and >110 μm in diameter were selected for experiments. In the first experiment, oocytes were pre-incubated for different times (1, 3, 20 h) in TCM 199 + 20% FCS + 0.5 μM or 2 μM OA and thereafter cultured for 48 h in the same medium without OA. A group of oocytes was matured in TCM 199 + 20% FCS for 72 h as control. At the end of culture, oocytes were stained with glycerol-Hoechst 33342 to evaluate meiotic stage. Results indicated that incubation with 2 μM OA for 1, 3, and 20 h determined a significantly higher (P < 0.001) meiotic resumption (GVBD) of canine oocytes compared to that in the control group, but the percentage of oocytes reaching MI and MII did not increase. Similar results were obtained after culture with 0.5 μM OA for 3 and 20 h. However, meiotic progression to MI and MII was significantly improved (P < 0.05) after incubation with 0.5 μM OA for 1 h. In the second experiment canine oocytes at GV stage were fused with MII bovine oocytes matured in vitro. This experiment was designed to test whether the high activity of MPF of MII bovine oocytes was able to determine modification of GV of canine oocytes. The zonae pellucidae from both GV and MII oocytes were removed using 0.1% pronase. Pairs of oocytes (n = 37) were agglutinated in medium containing 250 mg/mL phytohemoagglutinin placed between two electrodes in 0.5% glucose fusion medium, fused with a single pulse of direct current (1.25 KV/cm for 80 ms) and cultured for 2–3 h in TCM 199 + 10% FCS. After culture fused partners (n = 36) were stained with glycerol-Hoechst 33342 and evaluated. Results indicated that the fusion of MII bovine oocytes to GV reporter canine oocytes failed to induce nuclear membrane disassembly, chromatin condensation, or modification of canine nuclei in all of the fused combinations. These data suggest that OA induces meiotic resumption of canine oocytes. However, the cell fusion results seem to indicate that increased levels of MPF are not able to determine cell cycle progression. Furthermore, incubation times and concentration of okadaic acid could be refined to optimize a system for meiotic maturation of bitch oocytes. Table 1. Meiotic progression of bitch oocytes after incubation with okadaic acid This work was supported by MIUR (ex 40%).