Discovery of oxybisbenzoylamides as a new class of antimalarial agents

A new antimalarial pharmacophore has been obtained starting from previously described dual inhibitors of Plasmodium falciparum.

321 CYTOSKELETAL ALTERATIONS OF EQUINE OOCYTES THAT FAILED TO CLEAVE AFTER INTRACYTOPLASMIC SPERM INJECTION: EVALUATION OF MATERNAL AND CELL AGING

Intracytoplasmic sperm injection (ICSI) is used for assisted fertilization of equine oocytes. However, not all oocytes cleave after ICSI. Maternal aging deleteriously affects fertility in mares and women, with reduced oocyte quality and success of assisted reproductive technologies. In the oocyte, senescence and cell-programmed death begins after maturation; the extent that maternal age affects these events is unknown. We hypothesised that formation of α/β tubulin asters and f-actin bubbles are associated with aging of the oocyte in vitro and/or aging of the oocyte in vivo, in aged donors. In Exp 1, oocytes were collected from ovaries obtained from an abattoir and matured for 28 h and selected for polar body extrusion (0 h). At 0, 24, and 48 h, oocytes (n = 38 total) were fixed in MTSB-XF and transferred into wash solution with 1% BSA and 0.1% Triton X-100 in PBS for immunostaining. For experiment 2, oocytes were collected from preovulatory follicles of mares (9–25 yr) in a clinical ICSI program and injected with sperm from various stallions after extrusion of a polar body. Between 24 to 51 h after ICSI, uncleaved oocytes (n = 52, single cell without evidence of fragmentation or indentation of the oolemma) were fixed. All oocytes were incubated with α/β tubulin and human-anti-centromere antibody-CREST/ACA (1 : 100 each). Following primary incubation, oocytes were washed and incubated with Alexa 488, Alexa 647, Alexa 561-phalloidin, and Hoechst 33258. Images and Z-stacks were acquired on an Olympus IX81 spinning disk confocal microscope. Morphometric and intensity analyses of images were performed using SlideBook software (Denver, CO). Student's t-test, Fisher's exact test, and chi-square analyses were used for statistical comparisons. After aging in vitro (experiment 1), the number of oocytes with tubulin multiasters increased (P < 0.001; 9% at 0 h, 14% at 24 h, 85% at 48 h); however, actin bubbling was observed in only 5/38 (13%) oocytes, with no effect of incubation time. In experiment 2, tubulin multiasters were present in 62% of oocytes that failed to cleave. More multiasters were observed per oocyte from mares ≤13 yr than ≥20 yr (P = 0.03) and fixed at 24 to 28 h than 44 to 51 h (P = 0.04). Actin bubbles were observed in 71% of oocytes that failed to cleave after ICSI, with more actin bubbles in oocytes from mares ≥20 yr than ≤13 yr (P = 0.01) and fixed 44 to 51 h versus 24 to 28 h after ICSI (P = 0.05). The sum intensity and area of the actin bubbles were higher in oocytes fixed at 44 to 51 h than 24 to 28 h (P = 0.01 and P = 0.04). The area occupied by the actin bubbles was larger (P = 0.05) in oocytes from mares ≥20 yr than ≤13 yr. This study demonstrates actin bubbles and tubulin asters are involved in oocyte aging and cytoskeleton remodelling with or without fertilization. Although actin structures were associated with donor age and hours after ICSI, they were not present in unfertilized oocytes aged in vitro. Multiaster formation was associated with cell senescence in oocytes aged in vitro. Although not previously reported for the equine oocyte, multiaster formation appeared to be an initial fertilization event within the oocyte associated with attempted zygote development.

41 UPDATING THE ZONA-FREE METHOD FOR MOUSE CLONING USING HM1 EMBRYONIC STEM CELLS

The zona-free method of SCNT designed for bovine and pig cloning (Booth et al. 2001; Vajta et al. 2001; Oback et al. 2003) was successfully used for horse (Galli et al. 2003). Although simple and efficient in farm animals, its application in the mouse met several problems (Ribas et al. 2005, 2006). The aim of our work was to produce cloned mice using HM1 embryonic stem (ES)cells adapting a zona-free method. Seven- to 24-week-old superovulated B6D2F1 female mice were used as oocytes donors. Cumulus cells were removed by 0.3% hyaluronidase and the zona pellucida by 0.5% pronase in KSOM-HEPES (KSOM-H) 1 h later (Ribas et al. 2006) or immediately after hyaluronidase treatment at 37°C. The HM1 ES cells were cultured in KnockOut DMEM supplemented with leukemia inhibitory factor and 15% fetal bovine serum with or without 2i (Ying et al. 2008) and were synchronized at M phase by 3 ng mL–1 nocodazole for 3 h before fusion. Only spherical cells were selected for NT. Metaphase II chromosome spindle complexes were removed by micromanipulation in KSOM-H medium with 5 μg mL–1 cytochalasin B. Lectin-treated enucleated oocytes were attached to the donor cells in KSOM-H with nocodazole and fused by 2 pulses of 1.3 kV cm–1 DC for 30 μs in 0.3 M mannitol medium. Following 10- to 15-min incubation in KSOM-H, the fusion was assessed and repeated if the constructs were nonfused. Cloned embryos were activated in 1 mM SrCl2 in Ca2+-free KSOM medium for 2 to 2.5 or 5 to 6 h and cultured in 20-μL KSOM droplets using the well-of-the-well (WOW) method (Vajta et al. 2000) under mineral oil at 37°C and 5% CO2. Day 4 compacted morulae and blastocysts were surgically transferred into the uterus of Day-2.5 pseudopregnant recipients that were sacrificed on Day 19.5 to examine fetal development. The donor mice age was important for oocyte survival: ~16% of oocytes of 7- to 10-week-old mice lysed before or during fusion in 33% of experiments (n experiments = 15), whereas oocytes of older mice were not sensitive to enzymatic treatment and electric impulses even after 3 fusion rounds (n = 19). The time of pronase treatment did not affect oocyte survival, whereas extending the time between hyaluronidase treatment and enucleation revealed self-activation in ~25% of oocytes. The fusion efficiency of ES cells was significantly lower compared with serum-starved fibroblasts (61%, n = 623 v. 100%, n = 80). The duration of SrCl2 treatment did not affect embryo development (cleavage: 82% v. 84%; Day 4 blastocysts: 49% v. 52%). ES cell culture with 2i increased Day 4 blastocyst development (60.7% v. 50.4%; P = 0.07), and their ability to implant (52.6% v. 38.2%; P = 0.06). Moreover, only NT embryos derived from 2i-ES cells developed to term (8.2%, n = 5; P = 0.08), and produced live fetuses (4.9%, n = 3). In light of these results, the fusion of ES cells remains the critical step in the mouse zona-free protocol.Partially supported by grant Superpig from Regione Lombardia.

Xenotransplantation of galactosyl-transferase knockout, CD55, CD59, CD39, and fucosyl-transferase transgenic pig kidneys into baboons

Galactosyl-transferase knockout (GT-KO) pigs represent the latest major progress to reduce immune reactions in xenotransplantation. However, their organs are still subject to rapid humoral rejection involving complement activation requiring the ongoing development of further genetic modifications in the pig. In a pig-to-baboon renal transplantation setting, we have used donor pigs that are not only GT-KO, but also transgenic for human CD55 (hCD55), hCD59, hCD39, and fucosyl-transferase (hHT). We studied kidney xenograft survival, physiological and immunologic parameters, xenogeneic rejection characteristics, as well as viral transmission aspects among two groups of baboons: control animals (n = 2), versus those (n = 4) treated with a cocktail of cyclophosphamide, tacrolimus, mycophenolate mofetil, steroids, and a recombinant human C1 inhibitor. Whereas control animals showed clear acute humoral rejection at around day 4, the treated animals showed moderately improved graft survival with rejection at around 2 weeks posttransplantation. Biopsies showed signs of acute vascular rejection (interstitial hemorrhage, glomerular thrombi, and acute tubular necrosis) as well as immunoglobulin (Ig)M and complement deposition in the glomerular and peritubular capillaries. The low level of preformed non-Gal-α1.3Gal IgM detected prior to transplantation increased at 6 days posttransplantation, whereas induced IgG appeared after day 6. No porcine endogenous retrovirus (PERV) transmission was detected in any transplanted baboon. Thus, surprisingly, organs from the GT-KO, hCD55, hCD59, hCD39, and hHT transgenic donors did not appear to convey significant protection against baboon anti-pig antibodies and complement activation, which obviously continue to be significant factors under a suboptimal immunosuppression regimen. The association, timing, and doses of immunosuppressive drugs remain critical. They will have to be optimized to achieve longer graft survivals.

Characterization of skeletal parameters in a cohort of North Italian rugby players

BACKGROUND

Vitamin D deficiency is common in the general population and may impair skeletal muscle function. Very few data are available regarding this condition in professional athletes.

AIM

To evaluate some skeletal parameters and in particular serum 25-hydroxyvitamin D status in professional rugby players during two different sunlight exposure times (October and early April) and to assess its impact on bone metabolism.

MATERIALS AND METHODS

Twenty-one male healthy professional rugby players living in northern Italy at latitude of 44°55'N (age 24.6 ± 4.3 years; height 182.0 ± 0.05 cm; mass 96.3 ± 14.6 kg; BMI 28.9 ± 3.7 kg/m(2)) participated in this observational study. During 2012/2013 Italian rugby season, 25-hydroxyvitamin D, PTH and other related biochemical parameters were monitored. Dietary calcium intake and body composition by DXA were also evaluated.

RESULTS

Significant changes were observed between October and April data for 25-hydroxyvitamin D concentration (22.8 ± 5.8 vs. 19.1 ± 5.3 ng/ml; p = 0.001) whereas serum PTH, calcium and phosphorus plasma levels did not change. They presented with an appropriate daily intake of calcium (1,304.8 ± 477.9 mg; max 1,939 mg; min 228 mg).

CONCLUSIONS

Professional rugby athletes practicing a sport characterized by intense outdoor training and with good calcium intake are at higher risk of hypovitaminosis D that worsens significantly during times of low cutaneous vitamin D production. Further studies are warranted to evaluate whether an appropriate supplementation with cholecalciferol in professional athletes is needed.

Pharmacological GSK-3beta inhibition improves osteoblast differentiation on titanium surfaces

Rough titanium surfaces enhance the activation of Wnt canonical signaling, a pathway required for osteoblast differentiation. The present study investigated the effects of GSK3b-inhibitor (2'Z,3'E)- 6-Bromoindirubin-3'-oxime (BIO) on osteoblastic differentiation on titanium surfaces with different topography and wettability. C2C12 cells were plated on pickled, acid-etched/sand-blasted (SLA), modified hydrophilic SLA titanium discs (modSLA) and stimulated with increasing doses of BIO. Activation of Wnt canonical signaling was measured with a reporter system. Gene expression was measured in the same cell system by Real Time PCR. Osteoblastic MC3T3 cells were then plated on discs with or without BIO and the expression of osteoblast specific genes was assessed by Real Time PCR. One mM BIO activated Wnt canonical signaling in C2C12 cells on all surfaces, and the highest effect was on rough surfaces. BIO markedly increased the expression of Osteoprotegerin and Osteocalcin in MC3T3 cells on rough surfaces at the concentration of 100 nM, and on all surfaces at the concentration of 1 mM. BIO enhances Wnt signaling activation and the expression of osteoblastic genes on rough surfaces and could be a viable approach to improve cell response to implant surfaces.

215 LIVE PIGLETS GENERATED BY SOMATIC CELL NUCLEAR TRANSFER FOLLOWING TARGETING OF A PORCINE ENHANCED GREEN FLUORESCENT PROTEIN LINE MEDIATED BY ZINC-FINGER NUCLEASES TO ESTABLISH CLONED HYGROMYCIN-RESISTANT PRIMARY CELL LINES SUITABLE FOR Cre-MEDIATED RECOMBINASE-MEDIATED CASSETTE EXCHANGE

Recently, site-specific nucleases (zinc-finger nucleases, ZFN; TAL effector nucleases; and CRISPR) emerged as powerful tools for gene modification of different cells types and enhanced green fluorescent protein (EGFP)-specific ZFN were successfully used in the rat (Geurtz et al. 2010) and in the pig (Watanabe et al. 2010; Whyte et al. 2010). Previously (Brunetti et al. 2008 Clon. Stem Cells), we generated an EGFP transgenic porcine line (Verro2GFP) characterised by a single integration of pCAGGS-EGFP cassette, high ubiquitous EGFP expression, Mendelian transgene transmission, and expression in F1. The aim of this work was to modify a transcriptionally active GFP-locus into one suitable for Cre-mediated recombinase-mediated cassette exchange (RMCE), using EGFP-specific ZFN. Homology arms for promoter-less targeting vector were derived from pCAGGS-EGFP vector (promoter fragment = left-homology-arm = LHA; polyA sequence = right-homology-arm = RHA). Cloning floxed (lox2272/lox5171) hygromycin resistance coding sequence between LHA and RHA sequences, we generated the targeting/RMCE vector (pB5′3′Hygro-PL) and its positive control (C+) for PCR set-up (100–1000 plasmid copies). Verro2GFP fibroblasts cultured in DMEM+M199(1 : 1) + 10% FCS, bFGF in 5% CO2, 5% O2, were transfected using Nucleofector (V-024 program). In ZFN-mediated gene targeting, 2 μg of each ZFN coding vector (Sigma-CompoZr®) and 2 μg of pB5′3′Hygro-PL/KpnI vector were used to “nucleofect” 1.4 × 106 Verro2GFP fibroblasts in 2 experiments. Transfected cells were plated in 20 Petri dishes (Ø = 150 mm) and cultured under hygromycin selection (200 μg mL–1) for 15 days. After 12 days of drug selection, 82 resistant colonies were picked up and expanded in 24 multiwell plates for SCNT. All colonies were PCR screened and 45 (54.9%) colonies were positive. Four colonies were used in zona-free SCNT experiments with 140 Day 6 compacted morulae/blastocysts transferred into 2 synchronized sows that both became pregnant. One pregnancy went to term and delivered 5 live animals and 5 stillborn with correct hygromycin cassette integration, detected by PCR. The PCR products were sequenced in 7 animals to verify integration of promoterless targeting vector and in all 7 sequenced samples we obtained a correct insertion without any substitution/deletion. Using hygromycin selection in these experiments, we demonstrated that ZFN-mediated gene targeting can be easily done with high efficiency and is compatible with living animals. Moreover, we have validated a feasible SCNT-tested platform for further Cre-mediated site-specific gene modifications. This work is supported by a grant (Superpig) co-financed by Lombardy Region through the Fund for Promoting Institutional Agreements.

186 BOVINE AMNIOTIC FLUID MESENCHYMAL STEM CELLS CHARACTERIZATION AFTER CULTURE IN VITRO

In recent years, fetal adnexa and fluids have been recognised as important sources of mesenchymal stem cells (MSC). The aim of this study was to characterise cell populations of bovine amniotic fluid, studying phenotypic characterisation, RNA expression, and differentiation potential of samples after in vitro culture for different lengths of time following trypsinization and expansion (passage). Amniotic fluid samples were recovered at the slaughterhouse from 25 pregnant cows and harvested cells were cultured in DMEM-TCM199 (1 : 1) plus 10% fetal bovine serum (FBS) in 5% CO2 at 38.5°C. At passages P3 and P7, a sample for each of the 4 population found was characterised. Immunophenotypic characterisation was performed for MSC (CD90, CD105, CD44) and haematopoietic (CD14, CD34) markers by flow cytometry (FACS). Immunocytochemistry (ICC) was performed for Oct4, SSEA4, and α-SMA and the ratio between positive cells and total nuclei was evaluated. Gene expression profile was analysed by RT–PCR for pluripotency markers (Oct4, Nanog, Sox2). At the same passages chondrogenic, osteogenic and adipogenic differentiation were induced and evaluated morphologically and cytologically using, respectively, Alcian blue to identify cartilage matrix, Von Kossa for extracellular calcium deposition, and Oil Red O for intracellular lipid droplets. Cell population appeared heterogeneous and we could identify 2 main cell types: round (R) and spindle-shaped (S) cells. Each isolated sample was classified into one of the following 4 types depending on percentages of R or S cells: prevalence of S-cells (S), prevalence of R-cells (R), and samples showing both morphologies with ~10% of S-cells (S10) or 40% S-cells (S40). S-cells percentage decreased with passages in S10 and S40. After FACS, all lines were positive for CD90, CD105, CD44, and CD34 and negative for CD14 both at P3 and at P7. After ICC, Oct4 was negative in all samples analysed, few S cells stained for SSEA4 (8%) at P3 but increased at P7 to 22%; R, S10, and S40 did not express SSEA4 both at P3 and at P7. α-SMA was expressed in all samples at P3 (9.4% S; 0.9% R; 2.5% S10; 27% S40) but not at P7 (27.5% S; 0% R; 0% S10; 0% S40). After RT–PCR analyses, Oct4 was negative in all samples; at P3, Nanog was clearly positive in S-cells, weak in S40, and negative in R and S10, but all samples turned negative at P7. Sox2 was weakly expressed (S) or not expressed (S10, S40, R) at P3 and it was negative in all cells at P7. Only S showed high differentiation potential into all 3 lineages at both P3 and P7, R had the lowest differentiation potential, whereas S10 and S40 were intermediate at both end points. In conclusion, bovine amniotic fluid showed heterogeneous cell populations and S-type had the characteristics of MSCs. S10 and S40 showed more MSC markers at P3, when S cells were still present, and this aspect suggests that S population is the presumptive MSC one. Although prevalent, R-type showed only some MSC characteristics. Further studies are under way to improve S-type isolation, purification, and culture, and to determine the lifespan of these cell types. This work was supported by grant PRIN2009.

Periostin improves cell adhesion to implantable biomaterials and osteoblastic differentiation on implant titanium surfaces in a topography-dependent fashion

Periostin is a matricellular protein highly expressed in periodontal ligament and periostium and has been shown to be required for tissue development and maintenance. We showed that the adhesion of murine osteoblastic MC3T3 cells to thiolated hyaluronic acid/polyethyleneglycol hydrogels was greatly improved by enrichment with periostin. Polished or sand-blasted/acid-etched (SLA) commercially pure titanium surfaces were also coated with this protein and periostin ameliorated cell adhesion and dramatically affected cell morphology on both surfaces, as assessed at fluorescence microscopy, scanning electron microscopy, and chemiluminescence-based viability assay. Moreover, periostin increased the expression of alkaline phosphatase, osteoprotegerin, connective tissue growth factor, collagen 1a1, osteocalcin, Runx2, and osterix transcription factors on smooth surfaces. However, it did not affect, or even decreased, the expression of these genes on SLA discs. Transcript levels for connexin 43 were greatly increased on both surfaces in the presence of periostin. Taken together, these results show that periostin coatings can be a viable approach to improve cell adhesion and differentiation on implantable biomaterials.

Docosahexaenoic acid for the treatment of fatty liver: randomised controlled trial in children

BACKGROUND AND AIM

Non-alcoholic fatty liver disease (NAFLD) is the most common liver disease in children. We tested whether dietary supplementation with docosahexaenoic acid (DHA) can decrease liver fat content in children with NAFLD.

METHODS AND RESULTS

We performed a randomized controlled trial of DHA supplementation (250 mg/day and 500 mg/day) vs. placebo in 60 children with NAFLD (20 children per group). The main outcome was the change in liver fat as detected by ultrasonography after 6, 12, 18 and 24 months of treatment. Secondary outcomes were changes in triglycerides, alanine transaminase (ALT), body mass index (BMI) and homeostasis model assessment of insulin resistance (HOMA). The odds of more severe versus less severe liver steatosis decreased to the same degree at 6 months in children treated with DHA 250 mg/day and DHA 500 mg/day vs. placebo and persisted virtually unmodified for 24 months (OR ≤ 0.02, p ≤ 0.05 for all time points). Triglycerides were lower in the DHA groups than in the placebo group at any time point and ALT was lower in these groups from month 12 onwards. HOMA was lower in the DHA 250 mg group vs. placebo at months 6 and 12.

CONCLUSION

DHA supplementation improves liver steatosis in children with NAFLD. Doses of 250 mg/day and 500 mg/day of DHA appear to be equally effective in reducing liver fat content.

Modeling amyotrophic lateral sclerosis in hSOD1 transgenic swine

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease that occurs in two clinically indistinguishable forms: sporadic (SALS) and familial (FALS), the latter linked to several gene mutations, mostly inheritable in a dominant manner. Nearly 20% of FALS forms are linked to mutations in the Cu/Zn superoxide dismutase (SOD1) gene. Research on ALS relies on transgenic models and particularly on mice carrying a glycine-to-alanine conversion at the 93rd codon (G93A) of the hSOD1 gene. Although G93A transgenic mice have been widely employed in clinical trials and basic research, doubts have been recently raised from numerous reliable sources about their suitability to faithfully reproduce human disease. Besides, the scientific community has already foreseen swine as an attractive and alternative model to nonhuman primates for modeling human diseases due to closer anatomical, physiological and biochemical features of swine rather than rodents to humans. On this basis, we have produced the first swine ALS model by in vitro transfection of cultured somatic cells combined with somatic cell nuclear transfer (SCNT). To achieve this goal we developed a SOD1(G93A) (superoxide dismutase 1 mutated in Gly93-Ala) vector, capable of promoting a high and stable transgene expression in primary porcine adult male fibroblasts (PAF). After transfection, clonal selection and transgene expression level assessment, selected SOD1(G93A) PAF colonies were used as nuclei donors in SCNT procedures. SOD1(G93A) embryos were transferred in recipient sows, and pregnancies developed to term. A total of 5 piglets survived artificial hand raising and weaning and developed normally, reaching adulthood. Preliminary analysis revealed transgene integration and hSOD1(G93A) expression in swine tissues and 360° phenotypical characterization is ongoing. We believe that our SOD1(G93A) swine would provide an essential bridge between the fundamental work done in rodent models and the reality of treating ALS.

Different patterns characterize Omega 6 and Omega 3 long chain polyunsaturated fatty acid levels in blood from Italian infants, children, adults and elderly

Long chain polyunsaturated fatty acids (LC-PUFA), especially the Omega 3, modulate key functions in the body. Their circulating levels are representative of their "status", and may vary at different ages. We have compared the FA status in Italian subjects from neonates to adulthood, assessed through FA analysis of blood drops from fingertips. Data from four cohorts of Italian subjects (total number 1835), have been pooled in four age-groups: neonates (4 days, n=81), children (2-9 years, n=728), adults (40-59 years, n=434) and elderly (60-79 years, n=592). LC-PUFA of both series (Omega 3 and 6) are higher in the blood of neonates than at subsequent ages, reflecting the efficient transfer of these FA from mothers to the fetus. In contrast, the lowest levels of Omega 3 PUFA, especially of DHA, are found in children, probably reflecting inadequate dietary intakes, with possible consequences on the health status at subsequent ages.

A randomized placebo-controlled study on high-dose oral algal docosahexaenoic acid supplementation in children with cystic fibrosis

Low plasma concentrations of docosahexaenoic acid (DHA) are reported in unsupplemented cystic fibrosis (CF) patients. Forty-one CF patients aged from 6 to 12 years were randomized to receive high-dose DHA (100 mg/kg/day in the first month and 1g per day thereafter through a 12-month supplementation) or placebo (germ oil). Primary outcome was percentage change in plasma AA:DHA ratio. Secondary outcomes were changes in the number of pulmonary exacerbations compared to previous year, lung function, BMI, skinfold thicknesses, and body composition assessed by DXA and in serum concentrations of C-reactive protein, cytokines and vitamin (α-tocopherol and retinol). Compared to the control group plasma AA:DHA ratio decreased in the intervention group after 6 months (median percentage changes: -73% in the intervention group vs. -10% in the control group, P=0.001). No differences were detected between groups for secondary outcomes. Despite a decrease of the AA/DHA ratio, DHA supplementation for one year did not induce any significant biochemical and clinical improvement in CF patients.

34 PRE-IMPLANTATION DEVELOPMENT OF HORSE SOMATIC CELL NUCLEAR TRANSFER EMBRYOS ORIGINATED FROM METAPHASE I OOCYTES

Because of the limited availability of horse oocytes and their wide maturation window that leads to the existence of a subpopulation of oocytes with significantly longer maturation period, horse cloning would benefit from the possibility of also using metaphase I oocytes (Choi et al. 2009 Cloning Stem Cells). The scope of this work was to compare the developmental ability of cloned horse embryos constructed using oocytes in metaphase I (MI) and II (MII). Oocytes of slaughtered mares were matured for 27 h in DMEM/F12 with 10% FCS, 1 µL mL–1 of insulin-transferrin-selenium (ITS), 1 mM sodium pyruvate, 50 ng mL–1 of long-epidermal growth factor, 100 ng mL–1 of long-insulin-like growth factor-I, and 0.1 IU mL–1 each of FSH and LH, denuded of cumulus and enucleated using a zona-free method (Lagutina et al. 2005 Reproduction). Oocytes with a visible polar body were classified as MII and those with no polar body as potential MI. During enucleation, oocytes having a metaphase plate only were confirmed as MI; oocytes in anaphase and telophase were classified as MII. Adult skin fibroblasts of passages 2 to 10 were cultured in TCM 199/DMEM with 10% FCS and serum starved for 1 to 2 days before NT. Nuclear-transfer embryos were constructed after washing of zona-free oocytes in 400 µg mL–1 of phytohemagglutinin P and attachment of each to a single cell in HEPES-SOF by fusion with 2 direct-current (DC) pulses of 1.2 kV cm–1 applied for 30 µs in fusion medium. One hour after fusion, embryos were activated by 5 µM ionomycin for 4 min, followed by culture in 5 µg mL–1 of cycloheximide and 1 mM DMAP in SOFaa for 3 h. Embryos were cultured in SOFaa in 5% CO2 and 5% O2 at 38.5°C. Half of the medium was renewed on Day 3 and replaced on Day 5 with DMEM/F12 with 5% FCS and 5% serum replacement. Cleavage was assessed 48 h after activation and the rate of blastocyst formation was recorded at Day 8. The data were compared by chi-square test. The development ability of MI embryos assessed by cleavage and blastocyst formation was significantly lower than of MII embryos (Table 1). The obtained MI blastocysts were smaller than their MII counterparts. These data demonstrate that MI oocytes account for 20% of the total oocytes after 27 h of maturation, have a lower developmental competence to form blastocysts after NT, and the blastocysts obtained are of smaller size and likely less viable. Therefore, the use of MI oocytes can only marginally improve the outcome of horse cloning. Table 1.Embryo development after SCNT using oocytes in metaphase I or II

218 RNA-Seq ANALYSIS OF BOVINE OOCYTE TRANSCRIPTOME REVEALS THAT DIFFERENCES BETWEEN HEIFERS AND REPEAT BREEDERS ARE LIMITED TO A FEW KEY TRANSCRIPTS

Maternal transcripts are accumulated during oocyte growth and drive early embryonic development; therefore, their characterisation is a relevant factor for predicting fertility. DNA microarrays have been the method of choice for transcriptional profiling, but this method has some limitations when applied to domestic species because it relies upon existing knowledge about genome sequence and offers a limited quantitative evaluation. These limits are overcome by next-generation sequencing technology. The aim of the work was to define a reference standard for bovine fertility determining the list and the level of transcripts stored in fully grown oocytes collected from heifers (H) and to compare this pattern with that of adult repeat breeders (RB). Oocytes were collected by ovum pick-up (OPU) from 5 Italian Dappled Red heifers of 11 to 15 months of age that became pregnant at the following oestrus and from 4 adult cows of the same breed with an age of 4 to 7 years, classified as repeat breeders after they failed to become pregnant for a minimum of 3 consecutive AI. In both groups, oocytes were aspirated from follicles of 4 to 6 mm in diameter. Each oocyte was carefully denuded and immediately snap frozen in liquid nitrogen. Oocytes from each animal were pooled together (range 4 to 11) and analysed as a single sample. Total RNA extraction was performed by RNeasy Micro Kit (Qiagen, Valencia, CA, USA). Amplified cDNA, from both mRNA and non-polyadenylated transcripts, was prepared starting from total RNA using the Ovation RNA-Seq System V2 (NuGEN Inc., San Carlos, CA, USA). Purified cDNA was ligated directly into an Illumina sequencing library using TruSeq DNA Sample Prep kit (Illumina Inc., San Diego, CA, USA). Sequencing was performed on Illumina HiSEqn 2000 in the 50-bp long single-read set-up, at a 4-plex of multiplexing level, producing 30 to 40 million reads per sample. Data were annotated using the cDNA ENSEMBL UMD 3.1.67 database. On average, the number of transcripts present in each sample was 15 438 ± 766 in H and 15 624 ± 768 in RB oocytes. Nineteen thousand one hundred sixty-one transcripts were detected at least in one sample, and 12 174 were detected in all samples. The comparison between H and RB showed that 598 transcripts out of 19 161 (3.12%) and 437 out of 12 174 (3.59%) are expressed at a significantly different level (P < 0.05) in the 2 groups. Taking into consideration only the transcripts detected in all the samples, with an expression rate of at least 10-fold different and a P < 0.05 we identified 39 genes. Seventeen transcripts were more abundant in RB oocytes, whereas 22 were downregulated. This is the first analysis of the oocyte transcriptome performed with deep sequencing technology. The method enabled us to compile a full list of transcripts that are found in highly competent oocytes. A direct comparison with low-quality oocytes indicated that quantitative differences of transcripts level are limited to a small subpopulation of key transcripts. Supported by PRIN 2008.

184 INTERCELLULAR COUPLING AND CHROMATIN CONFIGURATION STATE IN HORSE OOCYTE - CUMULUS CELL COMPLEXES OF DIFFERENT ORIGINS

Fewer follicles and of variable size are found at any time on the mare ovary compared with other livestock species, also influenced by seasonal variation. This is reflected on the population of cumulus–oocyte complexes (COC) collected that is characterised by a high heterogeneity. Recovered immature oocytes presumably need different culture conditions. The main factors contributing to this high heterogeneity are the follicle diameter, the status of the cumulus oophorus, and the reproductive seasonality. Therefore, the aim of the present study was to assess the nuclear chromatin configuration and the oocytes–cumulus cell gap junction-mediated communication (GJC) functionality in COC of different origins because these parameters are indicative of the oocyte’s metabolic state and should be taken into account when designing IVM strategies. The COC with compact (Cp) or expanded (Ex) cumulus oophorus were collected from follicles of different diameters (<1, 1–2, and >2 cm) in October–November, January–February, and April–May. The GCJ functionality was assessed by Lucifer Yellow microinjection and chromatin configuration was evaluated by Hoechst and Lacmoid staining, after cumulus cells removal. Data were obtained from a total of 1003 oocytes and were analysed by chi-squared test. Overall, GJC functionality was impaired in the majority of Ex COC in each follicle category, even though a certain proportion of them had open GJC (% of Ex COC with open GJC was 39.7, 29.3, and 39.3 in <1, 1–2, and >2 cm follicles, respectively). Moreover, the proportion of Ex COC with open GJC did not differ significantly between periods (% of Ex COCs with open GJC in October–November, January–February, and April–May was, respectively, 43.3, 28.6, and 41.7 in <1 cm follicles; 45.5, 19.3, and 26.47 in 1–2 cm follicles; 66.7, 50, and 16.7 in >2 follicles). On the contrary, the majority of Cp COC from follicles <1 and 1–2 cm, showed open GCJ in October–November and April–May, whereas they decreased significantly in January–February. This tendency was not maintained in Cp COC from follicles >2 cm, where GJC functionality did not differ significantly between periods (% of Cp COC with open GJC in October–November, January–February, and April–May was, respectively, 74.4, 35.7, and 75 in <1 cm follicles; 73.8, 42.1, and 67.7 in 1–2 cm follicles; 58.3, 58.3, and 68.6 in >2-cm follicles). Chromatin configuration analysis revealed that the highest proportion (23.9%) of oocytes with fibrillar chromatin was found in Cp oocytes from <1 cm follicles, whereas the proportion of oocytes with fibrillar chromatin ranged from 5.4 to 12.5% in the other groups. Moreover, the increase in follicle diameter was generally associated with an increase of chromatin condensation in Cp COC. Interestingly, the chromatin configuration distribution did not differ significantly among seasons. Our data could be useful in setting up new in vitro cultural strategies aimed to improve horse-assisted reproductive technology efficiency as well as in the understanding of horse oocyte biology. Funding: Grant no. 26096200 ‘Ex Ovo Omnia’ from Regione Sardegna & Lombardia and ‘Dote Ricerca Applicata’ (VL and IT).

Somatic cell nuclear transfer and transgenesis in large animals: current and future insights

Somatic cell nuclear transfer (SCNT) was first developed in livestock for the purpose of accelerating the widespread use of superior genotypes. Although many problems still exist now after fifteen years of research owing to the limited understanding of genome reprogramming, SCNT has provided a powerful tool to make copies of selected individuals in different species, to study genome pluripotency and differentiation, opening new avenues of research in regenerative medicine and representing the main route for making transgenic livestock. Besides well-established methods to deliver transgenes, recent development in enzymatic engineering to edit the genome provides more precise and reproducible tools to target-specific genomic loci especially for producing knockout animals. The interest in generating transgenic livestock lies in the agricultural and biomedical areas and it is, in most cases, at the stage of research and development, with few exceptions that are making the way into practical applications.

Actin cytoskeleton controls activation of Wnt/β-catenin signaling in mesenchymal cells on implant surfaces with different topographies

Surface topography affects cell function and differentiation. It has been previously shown that rough surfaces can enhance the activation of canonical Wnt signaling, an important pathway for osteoblast differentiation and bone maintenance, but the underlying mechanisms are still poorly understood. The present paper investigates whether cytoskeletal organization contributes to regulating this pathway. Rho-associated protein kinase (ROCK), an important controller of actin microfilaments, was inhibited with 2mM specific antagonist Y-27632 in mesenchymal and osteoblastic cells growing on titanium discs with a polished or acid-etched, sand-blasted (SLA) surface. Y-27632 subverted the morphology of the cytoskeleton on polished and, to a lesser extent, on SLA surfaces, as evidenced by fluorescence microscopy. Although ROCK inhibition did not affect cell viability, it increased activation of Wnt signaling in uncommitted C2C12 mesenchymal cells on polished surfaces but not on SLA discs upon reporter assay. Consistently with this, real-time polymerase chain reaction analysis showed that MC3T3 cells on polished surfaces expressed higher mRNA levels for β-catenin and alkaline phosphatase, a known Wnt target gene, and for the osteoblastic differentiation marker osteocalcin after ROCK inhibition. Taken together, these data demonstrate that cytoskeletal organization mediates activation of Wnt canonical signaling in cells on titanium surfaces with different topographies.

The importance of WNT pathways for bone metabolism and their regulation by implant topography

Endosseous implants are important tools to replace missing teeth or damaged tissue segments. Their clinical success depends on their integration in bone and, thus, on the response of bone cells to material and surface characteristics. Recent evidence has shown that surface topography and chemistry affect WNT signalling, a pivotal pathway for the commitment of mesenchymal progenitors to the osteoblast lineage and for bone homeostasis. WNT signalling comprises several cascades that, acting through different effectors, modulate several aspects of cell behaviour. It has been shown that cells growing on rough titanium surfaces display a different expression profile for WNT factors, and that surface features can alter the response of bone cells to WNT factors. Although the underlying mechanisms to this regulation are still poorly understood, the present review reports intriguing evidence that that cell cytoskeletal signalling is involved in activating WNT signalling in cells growing on rough implant surfaces.

GSK3b-inhibitor lithium chloride enhances activation of Wnt canonical signaling and osteoblast differentiation on hydrophilic titanium surfaces

AIMS

Promoting bone formation at the tissue interface is an important step to improve implant success. This study investigated whether stimulation of Wnt signaling by GSK3b inhibitor lithium chloride (LiCl) could affect the response of mesenchymal or osteoblastic cells growing on titanium surfaces with different topography and wettability, and improve their differentiation along the osteoblastic lineage.

MATERIAL AND METHODS

Murine mesenchymal C2C12 cells were plated on Pickled, acid-etched/sand-blasted (SLA), and hydrophilic SLA titanium disks (modSLA) and stimulated with increasing doses of LiCl. Cell viability was measured using chemiluminescence-based ATP quantitation and activation of Wnt canonical signaling was measured using a Luciferase-based reporter assay. Gene expression was measured using real time PCR in C2C12 cells, murine osteoblastic MC3T3 cells or murine primary bone marrow cells.

RESULTS

LiCl stimulated Wnt activation and expression of Wnt markers in C2C12 cells on modSLA. Addition of 1 mM LiCl increased levels for bone marker Osteocalcin in MC3T3 cells on modSLA surfaces. Similarly, LiCl potently enhanced Osteoprotegetrin levels in MC3T3 cells on modSLA. When primary bone marrow cells were stimulated with LiCl, the expression of Wnttarget genes and osteoblastic differentiation markers was increased on modSLA surfaces.

CONCLUSIONS

Stimulation of the canonical Wnt pathway promoted osteoblast differentiation on hydrophilic modSLA surfaces. Taken together, these results demonstrate that Wnt activators such as LiCl should be further tested as a possible approach to improve implant osseointegration.

Characterisation of a neural teratogenicity assay based on human ESCs differentiation following exposure to valproic acid

The development of in vitro testing strategies for chemical and drug screening is a priority need in order to protect human health, to increase safety, to reduce the number of animals required for conventional testing methods and finally to meet the deadlines of current legislations. The aim of this work was to design an alternative testing method based on human embryonic stem cells for the detection of prenatal neural toxicity. For this purpose we have created a model based on the generation of neural rosettes, reproducing in vitro the gastrulation events recapitulating the formation of the neural tube in vivo. To validate the model we have exposed this complex cell system to increasing concentrations of valproic acid, a known teratogenic agent, to analyse the morphological and molecular changes induced by the toxicant. Specific assays were applied to discriminate between cytotoxicity and specific neural toxicity. Transcriptomic analysis was performed with a microarray Affimetrix platform and validated by quantitative real time RT-PCR for the expression of genes involved in early neural development, neural tube formation and neural cells migration, key biological processes in which the effect of valproic acid is most relevant. The results demonstrated that neural rosette cells respond to valproic acid exposure with molecular and morphological changes similar to those observed in vivo, indicating that this method represents a promising alternative test for the detection of human prenatal neural toxicity.

157 PREGNANCIES AND CALVES AFTER TRANSFER OF IN VITRO-PRODUCED RIVER BUFFALO EMBRYOS AFTER CRYOPRESERVATION

In the buffalo, the use of embryo-based biotechnologies for breeding and genetic improvement is still very limited because multiple-ovulation embryo transfer delivers poor results compared with cattle and in vitro embryo production has been used mainly for research purposes. At present, very few reports are available on the transfer of in vitro-produced (IVP) and cryopreserved buffalo embryos. Therefore, the scope of this work was to perform a pilot study to evaluate the viability of frozen-thawed IVP embryos by nonsurgical embryo transfer to recipients in an IVF-embryo transfer program on a farm located on the north coast of Colombia, South America. Buffalo oocytes were recovered at the slaughterhouse from selected donors, matured in vitro for 18 to 20 h in TCM-199 + 10% FCS and 0.5 IU of FSH and 0.5 IU of LH in 5% CO2 at 38.5°C. Four different bulls were used for IVF. After thawing, the semen was separated on a Percoll® gradient and then diluted into SOF-IVF media supplemented with 1 μg mL–1 of heparin and phenylalanine. Presumptive zygotes were cultured in modified SOF supplemented with MEM amino acids for 6 days. Half of the medium was replaced on Day 4 and 6. Developing embryos were selected for freezing on Day 6 and 7. Grade 1 embryos were frozen at the blastocyst stage by slow cooling in 10% glycerol or 1.5 M ethylene glycol. Recipients (heifers n = 79 and uniparous cows n = 17) were synchronized using the CIDR-Synch protocol: on Day 0, gonadotropin-releasing hormone was injected and a CIDR was inserted; on Day 7, prostaglandin F2α was administered; on Day 9, the CIDR was removed; on Day 11, a second injection of gonadotropin-releasing hormone was given; and on Day 17, the embryo was transferred. Each female received, nonsurgically, 1 or 2 embryos in the ipsilateral horn to the functional corpus luteum evaluated by ultrasonography. Pregnancies were evaluated by ultrasonography 30 days after transfer and confirmed by rectal palpation 30 days later. This work was performed in 2 successive experiments during the breeding seasons (January and December, respectively). Overall, 96 recipients were transferred, with 136 embryos obtaining 23 pregnancies (24.2%). There were no statistical differences in pregnancy rate between heifers and cows (25.3 vs 17.7%) and between single (n = 56) and double (n = 39) embryo transfers (21.4 vs 27.5%) by chi square test (P > 0.05). To date, 4 females and 5 males have been born by spontaneous calving (1 stillborn male due to dystocia), 3 pregnancies have been aborted (13%) and 11 pregnancies are ongoing (>7 months). The pregnancy rate obtained in this study in farm conditions (24.2%) is lower than generally obtained with frozen IVP cattle embryos, but it is still a good result in buffalo, where even conventional AI provides a lower success rate as compared with cattle. Finally, this work demonstrates that in vitro embryo production can be successfully implemented in buffalo breeding programs for the exploitation of superior genetics. This work was supported by Regione Lombardia, Por Fers 2007–2013, n°13827741, InnovaB.