25 PORCINE OOCYTES SELECTION USING BRILLIANT CRESYL BLUE AND EMBRYO DEVELOPMENT AFTER SOMATIC CELL NUCLEAR TRANSFER

2014 ◽  
Vol 26 (1) ◽  
pp. 127
Author(s):  
E. J. Park ◽  
K. Y. Song ◽  
J. H. Moon ◽  
B. C. Lee
Keyword(s):  
Nuclear Transfer ◽  
Formation Rate ◽  
Oocyte Quality ◽  
Cell Number ◽  
Total Cell ◽  
Total Cell Number ◽  
Brilliant Cresyl Blue ◽  
Cresyl Blue ◽  
Morphological Criteria ◽  
Selection Of

The efficiency of animal cloning through somatic cell nuclear transfer (SCNT) technology is affected by numerous factors such as oocyte quality and donor cell type. Among the factors, oocyte quality can be enhanced by identification and selection of developmentally competent oocytes before in vitro maturation (IVM). Morphological criteria following homogeneous ooplasm, more than 3 layers of cumulus cells, and oocyte diameter have been used. However, the criteria vary between examiners and even within individual. In contrast, use of Brilliant cresyl blue (BCB), a marker of oocyte growing status related to activity of glucose-6-phosphate dehydrogenase (G6PD), can be a more objective selection method for the detection of fully grown oocytes in bovine, equine and porcine. To our knowledge, BCB has been used to select oocytes in parthenogenesis, intracytoplasmic sperm injection (ICSI), and IVF, excluding SCNT in porcine. The aim of this study was to investigate whether oocytes selected by BCB have better ability to develop into blastocysts than oocytes selected by morphological criteria. After aspirated cumulus–oocyte complexes (COC) from porcine ovaries were washed in HEPES-buffered TCM-199 2 times, the COC were selected through morphological criteria and divided randomly into 2 groups. Group 1 (control; 304 COC) was directly transferred into IVM medium and Group 2 was incubated in TALP supplemented with 26 μM BCB for 90 min at 38.5°C in air. Then, COC of the second group were washed twice in TALP, and COC displaying a blue-coloured ooplasm (BCB+) were selected. The 342 BCB+ COC also were transferred into IVM medium and cultured with 5% CO2 in air at 38.5°C, with hormonal supplementation for 22 h and without the hormones for another 22 h. After denudation, the rate of degenerated oocytes and maturation rate were determined. The matured oocytes were used for SCNT and the development and total cell number of blastocysts were observed. Each experiment was repeated at least 3 times. Data were analysed by unpaired Student's t-test using Graphpad Prism (GraphPad, San Diego, CA, USA). No difference was observed between Groups 1 and 2 in the rate of degenerated oocytes (9.13 ± 0.47% and 10.68 ± 2.73%, respectively), metaphase II rate (94.60 ± 2.30% and 89.26 ± 3.76%, respectively), cleavage rate (77.02 ± 1.56% and 80.05 ± 2.31%, respectively), or blastocyst formation rate (9.74 ± 1.91% and 10.74 ± 1.30%, respectively). However, total cell number of blastocyst showed significant difference between Groups 1 and 2 (57.67 ± 1.76 and 77.50 ± 1.50, respectively; P < 0.01). In conclusion, selection of oocytes through BCB staining does not improve their developmental ability with respect to cleavage and blastocyst formation rate, but enhances embryo quality by means of increased total cell number per blastocyst in porcine SCNT. This study was supported by IPET (#311011-05-2-SB010), MKE (#10033839-2012-21) and TS Corporation.

scholarly journals 68 EFFECT OF XENOPUS EGG EXTRACT TREATMENT OF DONOR CELLS ON PORCINE SOMATIC CELL NUCLEAR TRANSFER

2010 ◽  
Vol 22 (1) ◽  
pp. 192
Author(s):  
Y. Liu ◽  
O. Østrup ◽  
J. Li ◽  
G. Vajta ◽  
L. Lin ◽  
...  
Keyword(s):  
Somatic Cell ◽  
Somatic Cell Nuclear Transfer ◽  
Nuclear Transfer ◽  
Donor Cell ◽  
Cell Number ◽  
Total Cell ◽  
Cell Permeabilization ◽  
Total Cell Number ◽  
Egg Extract ◽  
Donor Cells

Pretreatment of somatic cells to promote subsequent reprogramming during somatic cell nuclear transfer (SCNT) may significantly improve efficiency of the technique. The aim of this study was to evaluate the effect of Xenopus laevis egg extract pretreatment of porcine fetal fibroblast cells using different permeabilization agents prior to SCNT. Fibroblasts were permeabilized using streptolysin O (SLO; 300 ng mL-1, 30 min, 37°C) or digitonin (7 μg mL-1, 2 min, 4°C), and exposed to egg extract for 1 h or 0.5 h, respectively. Cell membranes were resealed in DMEM supplemented with 2 mM CaCl2 for 2 h. After culture for 1, 3, and 5 days (for SLO) or 3 and 5 days (for digitonin), the SLO extract-treated cells (SETC) and digitonin extract-treated cells (DETC) were used as donor karyoplasts for handmade cloning. Controls were SCNT with nontreated cells. Embryos were evaluated for cleavage rate (Day 2), blastocyst rate (Day 6), and total cell numbers of blastocysts. Statistical differences were analyzed by ANOVA. Results are summarized in Table 1. When SETC were used as donors, blastocyst rates were significantly lower compared with the controls, except when the donor cells were cultured for 3 days after treatment. Blastocysts of the latter group also had higher total cell number. With DETC as donors, blastocyst rates and total cell number of embryos at Day 6 reconstructed with cells cultured for 5 days were higher than those in other groups. Results indicate that extract treatment of the donor cells after SLO-permeabilization can give higher number of cells in cloned blastocysts but not improve overall embryo development. However, digitonin treatment for donor cell permeabilization improved both embryo development and cell number of blastocyst. The latter effect was detected only 5 days after the treatment. In conclusion, qualitative efficiency of porcine SCNT could be improved with a combined donor cell permeabilization and extract treatment. Table 1.Effect of different permeabilization agents prior to SCNT

250 HUMAN EXHALED AIR CAN EFFECTIVELY SUPPORT IN VITRO MATURATION OF PORCINE OOCYTES AND SUBSEQUENT IN VITRO DEVELOPMENT

2011 ◽  
Vol 23 (1) ◽  
pp. 223
Author(s):  
Z. B. Cao ◽  
L. C. Sui ◽  
S. F. Ji ◽  
J. W. Chen ◽  
T. Gui ◽  
...  
Keyword(s):  
Formation Rate ◽  
Cell Number ◽  
Total Cell ◽  
High Oxygen ◽  
Blastocyst Formation ◽  
Total Cell Number ◽  
Nuclear Maturation ◽  
Air Atmosphere ◽  
Significant Difference

The objective of the present study was to examine the feasibility of culturing porcine oocytes and embryos in vitro using the human exhaled lung air atmosphere. In Experiment 1, the effects of lung air atmosphere on nuclear maturation of prepubertal gilt oocytes and subsequent development in vitro of parthenogenetic-activated and somatic-cell-cloned embryos were explored. Abattoir-derived prepubertal gilt cumulus–oocyte complexes (COC) were matured in TCM-199 supplemented with 10 IU mL–1 of eCG, 10 IU mL–1 of hCG, 10 ng mL–1 of epidermal growth factor, and 10% porcine follicular fluid (pFF) for 40 to 44 h at 38.5°C, 100% humidity, and 5% CO2+20% O2 (high oxygen tension) or human exhaled air encapsulated in plastic, airtight bags (lung air) or 5% CO2+7% O2 (low oxygen tension) in the incubator. Nuclear maturation was evaluated by the presence of the 1st polar body. For parthenogenetic activation, denuded oocytes with the 1st polar body were selected and stimulated with a single 1.6-kV/cm, 100-μs direct current pulse followed by culture in porcine zygote medium-3. For NT, denuded metaphase II oocytes were enucleated, and then the donor cell was directly injected into the perivitelline space. After NT, reconstructed couplets were fused and activated electrically followed by treatment in 7.5 μg mL–1 of cytochalasin B and 10 μg mL–1 of cycloheximide for 4 to 6 h before culture in porcine zygote medium-3. We found no significant difference among groups in terms of nuclear maturation rate (66.5% v. 60.2%, 63.2%), cleavage rate (94.8% v. 94.2%, 85.2%), blastocyst formation rate (39.5% v. 40.3%, 32.5%), and total cell number (37 v. 38, 32). Moreover, as for porcine cloned embryo, no significant difference between the lung-air and high-oxygen (20% O2) groups was observed in the cleavage rate (88.3% v. 80.3%), blastocyst formation rate (7.3% v. 10.7%), and total cell number (34 v. 36). The above results indicated that porcine oocytes can be matured in vitro safely and efficiently using the human exhaled lung air atmosphere. In Experiment 2, in vitro developmental competence of porcine zona-free parthenogenetically activated embryos cultured in a lung air, low oxygen (5% O2), or high oxygen (20% O2) tension gas environment was studied. We found no obvious difference among the 3 groups regarding the rates of cleavage (83.0%, 83.6%, 82.8%), but blastocyst formation rate (26.8% v. 48.6%, 48.2%) and total cell number (23 v. 34, 29) in lung air were lower than those in the rest of the groups (P < 0.05). The results show that lung air could be an alternative for preparing a gas environment for in vitro culture of porcine zona-free parthenotes, although not an ideal alternative. Taken together, porcine oocytes and embryos can be cultured in vitro safely and efficiently using the human exhaled lung air atmosphere. Z. B. Cao and L. C. Sui contributed equally to this work. X. R. Zhang and Y. H. Zhang are the corresponding authors. This work was supported by NSFC (30700574), 863 (2008AA101003).

120 SUPPLEMENTATION OF VASCULAR ENDOTHELIAL GROWTH FACTOR DURING IN VITRO MATURATION OF PORCINE IMMATURE CUMULUS - OOCYTE COMPLEXES AND SUBSEQUENT DEVELOPMENTAL COMPETENCE AFTER PARTHENOGENESIS AND SOMATIC CELL NUCLEAR TRANSFER

2011 ◽  
Vol 23 (1) ◽  
pp. 165 ◽  
Author(s):  
D. Biswas ◽  
Y.-B. Jeon ◽  
G.-H. Kim ◽  
E.-B. Jeung ◽  
S. H. Hyun
Keyword(s):  
Vascular Endothelial Growth Factor ◽  
Growth Factor ◽  
Somatic Cell Nuclear Transfer ◽  
Nuclear Transfer ◽  
Cell Number ◽  
Total Cell ◽  
Vascular Endothelial ◽  
Blastocyst Formation ◽  
Total Cell Number ◽  
Endothelial Growth Factor

In the present study, pig cumulus–oocyte complexes were cultured in medium supplemented with different concentrations (0, 5, 50, and 500 ng mL–1) of vascular endothelial growth factor (VEGF), and then the maturation and intracellular glutathione (GSH) concentration of oocytes were examined. In addition, the development of oocytes matured with different concentrations of VEGF after parthenogenetic activation (PA) or somatic cell nuclear transfer (SCNT) was observed. Although the maturation rate of oocytes was not affected by VEGF concentrations (81.13 ± 2.61%, 83.93 ± 1.97%, 82.14 ± 4.03%, 75.24 ± 2.68%, respectively), the intracellular GSH concentrations of oocytes matured with 5 and 50 ng mL–1 VEGF were significantly higher (12.68 ± 0.08, 12.33 ± 0.53 pMol/oocyte, respectively) than those of oocytes matured with 0 or 500 ng mL–1 VEGF (10.19 ± 0.66, 10.54 ± 0.54 pMol/oocyte, respectively). The blastocyst formation rates after PA of oocytes matured with 5 and 50 ng mL–1 VEGF were significantly higher (58.99 ± 4.70% and 54.00 ± 1.09%, respectively) than that of oocytes matured with 0 or 500 ng mL–1 VEGF (30.15 ± 4.52%, 34.79 ± 4.01%, respectively). Total cell number of PA blastocyst after oocytes matured with 5 and 50 ng mL–1 VEGF was significantly higher (83.21 ± 4.89, 78.16 ± 6.15, respectively) than that of control and 500 ng mL–1 VEGF (56.91 ± 4.78, 55.93 ± 3.89, respectively). Similarly, the blastocyst formation rate after SCNT of oocytes matured with 5 ng mL–1 VEGF was significantly higher (14.54 ± 1.42%) than that of oocytes matured without VEGF (7.95 ± 1.44%). Total cell number of SCNT blastocyst after oocytes matured with 5 ng mL–1 VEGF was significantly higher (67.83 ± 6.56) than control (48.09 ± 5.36). Fully cumulus cell expansion was significantly higher in the 5 ng mL–1 VEGF treated group (85.37 ± 0.73%) compared with the control (58.89 ± 0.88%). In conclusion, adding 5 ng mL–1 VEGF during IVM improved the developmental potential of PA and SCNT in porcine embryos by increasing the intracellular GSH level. This work was supported by a grant (#20070301034040) from BioGreen 21 program, Rural Development Administration, Republic of Korea.

scholarly journals 26 ASSESSMENT OF CHROMOSOME ABNORMALITIES IN SHEEP PARTHENOGENETIC AND NUCLEAR TRANSFER EMBRYOS: EFFECT OF 6-DMAP AND CYCLOHEXIMIDE ON PLOIDY

2005 ◽  
Vol 17 (2) ◽  
pp. 163
Author(s):  
B. Alexander ◽  
G. Coppola ◽  
D. Di Berardino ◽  
D.H. Betts ◽  
W.A. King
Keyword(s):  
Nuclear Transfer ◽  
Cell Number ◽  
Blastocyst Stage ◽  
Total Cell ◽  
Total Cell Number ◽  
Parthenogenetic Activation ◽  
Treatment Groups ◽  
Reconstructed Embryos ◽  
The Mean ◽  
Painting Probes

In current somatic cell nuclear transfer (NT) protocols, the reconstructed embryos are activated by incorporation of secondary oocyte activation compounds such as 6-DMAP or cycloheximide (CHX). The effects of these compounds on the chromosome complement of sheep NT embryos have not been studied in detail. Therefore, the aim of this study was to assess the chromosome abnormalities using sex chromosome specific probes of Day 6 blastocyst-stage sheep embryos produced from parthenogenetic activation and NT. Following 20–22 h of IVM, the oocytes were activated by electric pulsing followed by 30-min culture in cytochelasin B. They were reactivated using ionomycin (5 min) followed by 2-h culture in 6-DMAP or CHX. In contrast, NT embryos were produced using standard NT procedures using male sheep fetal fibroblasts. Reconstructed embryos were activated using the same methods described earlier. The embryos (compact morulae and blastocysts) were fixed and subjected to FISH analysis using cattle X and Y chromosome painting probes. The data were analyzed using Fisher's exact test. Of the parthenogenetic embryos (6-DMAP, n = 28; CHX, n = 32) analyzed, none of the embryos was totally haploid (X) or totally polyploid. When all of the nuclei per embryo were considered, normal (XX) genotype embryos were 6.2% and 0.0% in CHX and 6-DMAP groups, respectively. The rest of the embryos were abnormal due to mixoploidy (100% vs. 93.8%, P < 0.05) in 6-DMAP and CHX treatment groups, respectively. The abnormal nuclei per embryo ranged from 7.3% to 72.2%. The mean total cell number of parthenogenetic blastocysts was 91.2 ± 4.3 and 81.8 ± 6.2 (mean ± SE) in 6-DMAP and CHX, respectively. Among NT embryos analyzed, (6-DMAP, n = 30; CHX, n = 32) only 40.0% and 43.8% of embryos were completely normal for XY chromosomes in 6-DMAP- and CHX-treated groups, respectively. The rest of the embryos were abnormal due to mixoploidy (60.0% vs. 56.2%, P > 0.05) in 6-DMAP and CHX groups, respectively. Monosomy (XO or OY), trisomy (XXY), and tetrasomy (XXYY) were the common abnormalities detected in mixoploid embryos. The abnormal cells per embryo ranged from 3.8% to 41.8% in both treatment groups. The mean total cell number of NT blastocysts was 71.2 ± 9.8 and 63.8 ± 8.4, in 6-DMAP and CHX treatment groups, respectively. In conclusion, the 6-DMAP-treated embryos derived from parthenogenetic activation had significantly higher chromosomal abnormalities than CHX-treated embryo groups (P < 0.05). In contrast, the NT embryos derived from either 6-DMAP or CHX treatment did not show any significant difference in producing chromosomally abnormal embryos at the blastocyst stage. This study also highlights the feasibility of using bovine chromosome painting probes on ovine embryo spreads. This work was supported by NSERC, OMAFRA, and ICCS.

37 EFFECTS OF TRICHOSTATIN A TREATMENT ON BOVINE SOMATIC CELL NUCLEAR TRANSFER EMBRYOS

2008 ◽  
Vol 20 (1) ◽  
pp. 99 ◽  
Author(s):  
A. E. Iager ◽  
Z. Beyhan ◽  
P. J. Ross ◽  
N. P. Ragina ◽  
K. Cunniff ◽  
...  
Keyword(s):  
Somatic Cell ◽  
Somatic Cell Nuclear Transfer ◽  
Nuclear Transfer ◽  
Trichostatin A ◽  
Cell Number ◽  
Total Cell ◽  
Preimplantation Embryos ◽  
Total Cell Number ◽  
Treatment Groups

Faulty epigenetic reprogramming is a likely major cause of the low success rate observed in all mammals produced through somatic cell nuclear transfer (SCNT). It has been reported that treatment of reconstructed mouse embryos with the potent histone deacetylase inhibitor, trichostatin A (TSA), results in significantly increased developmental capacity of SCNT preimplantation embryos and live offspring (Kishigami et al. 2006 Biochem. Biophys. Res. Commun. 240, 183–189; Rybouchkin et al. 2006 Biol. Reprod. 74, 1083–1089; Kishigami et al. 2006 J. Reprod. Dev. 53, 165–170). Studies investigating similar reprogramming capabilities of TSA in bovine SCNT embryos report conflicting results (Akagi et al. 2007 Reprod. Fertil. Dev. 19, 24 abst; Iwamoto et al. 2007 Reprod. Fertil. Dev. 19, 48 abst). In this study, the effects of TSA treatment on in vitro development of bovine SCNT embryos were examined. Bovine fetal fibroblasts were cultured under contact inhibition for 2 to 5 days and used as donor cells for SCNT. Oocytes were aspirated from abattoir-derived ovaries, and matured in vitro for 18 h prior to enucleation. Reconstructed SCNT couplets were electrofused, and then activated 24 h post-maturation using 5 µm ionomycin followed by 2 mm dimethylaminopurine (DMAP) for 4 h. SCNT embryos were subjected to 0 (control; C-NT) or 50 nm TSA for 13 h post-ionomycin (hpi) TSAa-NT) or 13 hpi + 6 h starting from 40 hpi (TSAb-NT). IVF embryos were produced as an additional control. All embryos were cultured in KSOM supplemented with 3 mg mL–1 BSA for 7.5 days, with 5% FBS added on Day 3. Experiments were repeated 3 or 7 times, and data were analyzed a -way ANOVA procedure. Developmental rates to the blastocyst stage and total cell number of blastocysts were determined. Total cell numbers were determined by fixing blastocysts in 4% paraformaldehyde, and staining with bisbenzimide 33342, followed by microslide mounting and visualization using an epifluorescence microscope. No difference was observed in cleavage rates among the four treatment groups, C-NT, TSAa-NT, TSAb-NT, and IVF, with the rates being 66%, 75%, 73.1%, and 82.3%, respectively (P = 0.33); nor was any improvement seen in the rate of blastocyst development of TSAa-NT or TSAb-NT over C-NT embryos: 36%, 40.2%, and 30.2%, respectively (P = 0.22). Furthermore, there was no significant difference in mean total cell number of blastocysts among treatment groups: C-NT, 120.2; TSAa-NT, 124.2; TSAb-NT, 129.3; and IVF, 141.1 (P = 0.29). These results suggest that 50 nm TSA treatment immediately following activation does not affect the development of bovine SCNT preimplantation embryos.

38 GENERATION OF INTERSPECIFIC CLONED BLASTOCYSTS BY ZONA PELLUCIDA-FREE NUCLEAR TRANSFER IN WILD FELIDS

2013 ◽  
Vol 25 (1) ◽  
pp. 167 ◽  
Author(s):  
L. N. Moro ◽  
J. Jarazo ◽  
A. Sestelo ◽  
D. Salamone
Keyword(s):  
Zona Pellucida ◽  
Nuclear Transfer ◽  
Cell Number ◽  
Total Cell ◽  
Domestic Cat ◽  
Felis Silvestris ◽  
Total Cell Number ◽  
Reconstructed Embryos ◽  
Wild Felid ◽  
Felid Species

Somatic cell nuclear transfer is an assisted reproductive technique that could help to preserve endangered species. Because it is difficult to obtain wild felid oocytes, interspecific cloning using domestic cat (DC) oocytes is an alternative to produce cloned embryos in these species. The aim of this study was to evaluate different cloning strategies in the DC (Felis silvestris catus) and to use the most efficient strategy to generate wild felid embryos by interspecific cloning. First, we evaluated 3 different cloning strategies: (1) enucleation of DC oocytes with zona pellucida (ZP) followed by fusion of a DC fibroblast that was injected into the perivitelline space (ZP-enclosed group), (2) the same enucleation procedure followed by intracytoplasmic injection of a DC fibroblast (ZPi group), and (3) enucleation of ZP-free oocytes followed by adhesion and fusion of a DC fibroblast (ZP-free group). After 2 h of nuclear reprogramming, the reconstructed embryos were activated with 5 µM ionomycin and 1.9 mM DMAP, and cultured in SOF. The ZP-free embryos were cultured in wells of the well system. Embryo development among treatment groups was compared by the Fisher exact test (P ≤ 0.05). The blastocyst rates were similar among the 3 groups: 11.1% (2/18), 11.1% (5/45), and 12.7% (9/71), for ZP-enclosed, ZPi, and ZP-free, respectively. However, the quantity of reconstructed embryos after the procedure was higher in the ZP-free clones because of a higher fusion rate (82.7 vs. 25.4%) and the use of a less-invasive technique than the injection. Moreover, the percentage of expanded blastocysts was also higher (0, 16.2, and 77.8% for ZP-enclosed, ZPi, and ZP-free, respectively). Parthenogenetic controls, with and without ZP, did not differ in blastocyst rates: 47.7% (42/88) and 49.4% (38/77), respectively. After this, the ZP-free strategy was chosen for the successive experiment. In experiment 2, the wild felid species selected for interspecific cloning were Bengal (a hybrid between Felis silvestris and Prionailurus bengalensis; FP group), cheetah (Acinonyx jubatus; AJ group), and tiger (Panthera tigris; PT group). The morula and blastocyst rates were higher in the FP group: 34.3% (36/105), 16.2% (16/99), and 17.5% (11/63) for morulae, and 33.3% (35/105), 1% (1/99), and 3.2% (2/63) for blastocysts of FP, AJ, and PT, respectively. Additionally, total cell number and the expression pattern of octamer-binding transcription factor 4 (Oct-4) were examined in the blastocysts by immunocytochemistry. The mean total cell number in DC, FP, AJ, and PT blastocysts was 177.9 ± 53, 229 ± 40, 53, and 41, respectively. All blastocysts expressed Oct-4 but in different proportions. The percentage of cells expressing Oct-4 in DC, FP, AJ, and PT blastocysts was 48, 66, 100, and 98%, respectively. In summary, ZP-free cloning was found to be an efficient technique in DC, with potential to be used in wild felid species. We also demonstrated that DC oocytes were able to reprogram cells of other genera. This is the first report of felid ZP-free cloning and also the first time that tiger and cheetah embryos were produced by interspecific cloning.

153 ZINC INSUFFICIENCY DURING PORCINE OOCYTES IN VITRO MATURATION CAUSED MEIOTIC BLOCK AND DEVELOPMENTAL FAILURE

2014 ◽  
Vol 26 (1) ◽  
pp. 190
Author(s):  
E. Kim ◽  
Y. Jeon ◽  
J. D. Yoon ◽  
L. Cai ◽  
S. U. Hwang ◽  
...  
Keyword(s):  
Embryonic Development ◽  
In Vitro Maturation ◽  
Formation Rate ◽  
Treated Group ◽  
Cell Number ◽  
Total Cell ◽  
Developmental Competence ◽  
Total Cell Number ◽  
Nuclear Maturation

The objective was to investigate the effects of zinc (Zn) insufficiency during in vitro maturation (IVM) of porcine oocytes. Zinc insufficiency was induced by treatment of Zn chelator, N,N,N′,N′-tetrakis-(2-pyridylmethyl)-ethylendiamine (TPEN). In experiment 1, we investigated the effect of duration of Zn insufficiency in IVM on oocytes maturation and subsequent embryonic development after parthenogenetic activation (PA). First, 10 μM TPEN was added to the IVM medium for 0, 7, 15, or 22 h. After TPEN treatment, 10 μM Zn were supplemented on IVM medium except in the 0 h group. Reductions in the nuclear maturation rates were dependent on TPEN duration. The 0-h-treated oocytes showed 83.9 ± 3.9% metaphase II (MII) rate; the 7-h-treated oocytes had significantly lower MII rate (44.8 ± 3.0%) than 0-h-treated oocytes. The majority of 15- and 22-h-treated oocytes were arrested at metaphase I (MI rate: 98.0 ± 1.0 and 97.2 ± 1.7%, MII rate: 0 and 0%, respectively). Embryonic developmental competence was similar to maturation results. Reduction in cleavage and blastocyst (BL) rates were also dependent on duration of TPEN treatment (cleavage rate: 65.3 ± 1.4, 42.6 ± 4.8, 2.6 ± 0.1, and 3.0 ± 1.6%; BL formation rate: 29.3 ± 2.8, 9.2 ± 1.5, 0, and 0% for 0, 7, 15, and 22 h). Total cell number of BL was also significantly different. Total cell number of BL in the 0-h-treated group (51.4 ± 4.5) was significantly higher than that in the 7-h-treated group (23.2 ± 1.6). In experiment 2, to confirm that the Zn insufficiency caused oocyte immaturities and loss of developmental competence in TPEN-treated oocytes, we investigated nuclear maturation and subsequent embryonic development following 3 groups: (1) non treatment (control); (2) 10 μM TPEN treatment during 22 h of IVM; (3) 10 μM TPEN + 10 μM Zn treatment during 22 h of IVM. Only TPEN-treated oocytes and TPEN+Zn-treated oocytes showed contrasting results. Oocyte maturation rates and subsequent embryonic development competence in TPEN with Zn-treated oocytes were similar to control (MII rate: 93.0 ± 1.2 and 92.7 ± 1.8%, BL formation rate: 42.0 ± 6.7 and 40.0 ± 7.5% for TPEN+Zn-treated oocytes and control). These results were significantly different compared with only TPEN-treated oocytes’ results (MII rate: 0.61 ± 0.61%, BL formation rate: 0%). In conclusion, Zn is an essential element for successful oocyte maturation and embryo development in porcine. Zinc insufficiency caused meiotic block and had lasting effects on early embryo development. This work was supported, in part, by a grant from the Next-Generation BioGreen 21 Program (No. PJ00956901), Rural Development Administration, and the National Research Foundation of Korea Grant funded by the Korean Government (NRF-2012R1A1A4A01004885, NRF-2013R1A2A2A04008751), Republic of Korea.

27 THE HISTONE DEACETYLASE INHIBITOR 4-IODO-SUBEROYLANILIDE HYDROXAMIC ACID IMPROVES TOTAL CELL NUMBER IN PIG NUCLEAR TRANSFER BLASTOCYSTS

2012 ◽  
Vol 24 (1) ◽  
pp. 125
Author(s):  
K. M. Whitworth ◽  
J. M. Teson ◽  
K. Lee ◽  
J. Mao ◽  
K. J. Tessanne ◽  
...  
Keyword(s):  
Histone Deacetylase Inhibitor ◽  
Nuclear Transfer ◽  
Cell Number ◽  
Blastocyst Stage ◽  
Total Cell ◽  
Suberoylanilide Hydroxamic Acid ◽  
Total Cell Number ◽  
Deacetylase Inhibitor ◽  
Significant Difference ◽  
Hdaci Treatment

Treatment of reconstructed pig clones with the histone deacetylase inhibitor (HDACi) Scriptaid immediately after nuclear transfer (NT) and activation results in increased cloning efficiency. Aberrant gene expression examined in NT blastocyst stage embryos is only partially corrected by Scriptaid use; therefore, 2 other HDACi were examined in this study including the class I and II HDACi, suberoylanilide hydroxamic acid (SAHA) and its hydrophobic derivative 4-iodo-SAHA (I-SAHA). Blastocyst rates and total cell numbers were examined across 6 treatment groups (1 μM SAHA, 10 μM SAHA, 1 μM I-SAHA, 10 μM I-SAHA, 0.5 μM Scriptaid and no HDACi treatment). Nuclear transfer was performed on enucleated MII oocytes using 3 different cell lines. Clones were electrically fused and activated, treated with HDACi for 14 to 16 h and cultured to the blastocyst stage in PZM3 under low oxygen tension for 7 days. Blastocyst number was calculated from the total number of fused oocytes. Blastocysts were then fixed in 4% paraformaldehyde and total cell number was determined by Hoechst staining of nuclei. The results from all 3 cell lines were pooled and 782 embryos were examined for blastocyst development from 7 replicates. All statistical analysis was performed by SAS 9.1 and means were separated by least significant difference (P < 0.05). The treatment group 10 μM SAHA had the highest blastocyst rate of 41.9% (n = 124) and was significantly different than no HDACi treatment (29.2%, n = 161; P < 0.003). There was no significant difference in blastocyst rates between 1 μM SAHA, 10 μM SAHA, 1 μM I-SAHA and 0.5 μM Scriptaid with blastocyst rates of 31.6% (n = 168), 41.9% (n = 124) 34.2% (n = 76) and 40.2% (n = 179), respectively (P < 0.05). Treatment with 10 μM I-SAHA significantly decreased development when compared with the other HDACi treatments (17.6%, n = 74, P < 0.05). There was no interaction between treatment and cell line for blastocyst rates (P > 0.45). Total cell number was significantly higher in blastocysts from the 1 μM I-SAHA (37.9, n = 20) treatment group when compared with Scriptaid (29.9, n = 50) and no HDACi treatment (29.4, n = 42; P < 0.04). There were no significant improvements in total cell number between the other concentrations (P > 0.05). Additionally, there was also a significant interaction between cell line used for nuclear transfer and the total cell number (P < 0.002). Two treatments were selected to determine if 10 μM SAHA and 1 μM I-SAHA treatment postnuclear transfer was compatible with term development. Six embryo transfers were performed and 5 recipient pigs became pregnant and developed to term. The results of this study show that treatment with the HDACi, SAHA and I-SAHA postnuclear transfer has the same blastocyst rates as the commonly used HDACi, Scriptaid. Additionally, treatment with 1 μM I-SAHA improves total cell number when compared with Scriptaid or no HDACi treatment. Funding was provided by Food for the 21st Century.

Short-term treatment with 6-DMAP and demecolcine improves developmental competence of electrically or Thi/DTT-activated porcine parthenogenetic embryos

Zygote ◽  
2010 ◽  
Vol 19 (1) ◽  
pp. 1-8 ◽  
Author(s):  
Sol Ji Park ◽  
Ok Jae Koo ◽  
Dae Kee Kwon ◽  
Ma Ninia Limas Gomez ◽  
Jung Taek Kang ◽  
...  
Keyword(s):  
Formation Rate ◽  
Cell Number ◽  
Term Treatment ◽  
Total Cell ◽  
Blastocyst Formation ◽  
Short Term ◽  
Cleavage Rate ◽  
Short Term Treatment ◽  
Total Cell Number ◽  
Long Term Treatment

SummaryTreatment with 6-dimethylaminopurine (6-DMAP) or demecolcine (DE) for several (at least 2) hours after artificial activation is known to improve in vitro development of porcine embryos. However, several reports have also shown that treatments with these chemicals induce apoptosis. The aim of this study was to find out whether short-term treatment with 6-DMAP and DE combined with electrical or thimerosal/dithiothreitol (Thi/DTT) activation had a beneficial effect on development of parthenogenetically activated porcine oocytes. We additionally treated embryos with 6-DMAP (2 mM) and/or DE (0.4 μg/ml) for a short time (40 min) after an electrical pulse (EP) or Thi/DTT. As a result, short-term treatment with 6-DMAP and DE successfully induced development of electrically or Thi/DTT-activated porcine parthenogenetic embryos with no significant difference in cleavage rate, blastocyst formation rate and total cell number compared with long-term treatment. To find optimal activation protocol, cleavage rate, blastocyst formation rate and total cell number were compared between EP and Thi/DTT treatments. Thi/DTT + 6-DMAP + DE showed significantly higher blastocyst formation rate (36.1 ± 3.5%) and total cell number (46.9 ± 1.0) than other groups (EP + 6-DMAP + DE, EP + Thi/DTT + 6-DMAP + DE: 23.3 ± 3.0%, 42.2 ± 1.1 and 17.2 ± 2.7%, 36.7 ± 1.5, respectively). In conclusion, this study demonstrates that short-term treatment with 6-DMAP and DE is as effective as the standard long-term treatment and Thi/DTT + 6-DMAP + DE exerts a synergistic effect.

Effects of chemically defined medium on early development of porcine embryos derived from parthenogenetic activation and cloning

Zygote ◽  
2011 ◽  
Vol 20 (3) ◽  
pp. 229-236 ◽  
Author(s):  
Zubing Cao ◽  
Liucai Sui ◽  
Yunsheng Li ◽  
Suofei Ji ◽  
Xiaorong Zhang ◽  
...  
Keyword(s):  
Early Development ◽  
Nuclear Transfer ◽  
Defined Medium ◽  
Cell Number ◽  
Early Embryo ◽  
Total Cell ◽  
Chemically Defined Medium ◽  
Total Cell Number ◽  
Parthenogenetic Activation ◽  
Blastocyst Rate

SummaryThe present study was to investigate if a completely chemically defined medium (PZM-4) could support the early development of porcine embryos derived from parthenogenetic activation (PA) and cloning (somatic cell nuclear transfer, SCNT), and to lay the foundation for determining the physiological roles of certain supplements in this medium. Porcine embryos derived from PA and SCNT were cultured in media: PZM-3 (a chemically semi-defined medium), PZM-4 (a fully defined medium), and PZM-5 (an undefined medium). Early embryo development was observed. We found that the three medium groups (PZM-3, PZM-4 and PZM-5) exhibited no significant differences in cleavage rates of PA embryos (p > 0.05), while the blastocyst rate in PZM-3 was significantly higher than in PZM-4 and PZM-5 (78.9% vs. 36.0% and 52.3%) (p < 0.05). Moreover, total cell number per blastocyst in PZM-3 was clearly higher than in PZM-5 but similar to that in PZM-4. As for SCNT embryos, no significant differences were observed for the cleavage rates or the blastocyst rates among the three groups (p > 0.05). However, total cell number per blastocyst in PZM-3 was notably higher than in PZM-5, but was similar to that in PZM-4. In conclusion, our results suggested that the completely chemically defined medium PZM-4 can be used to efficiently support the early development of porcine PA and SCNT embryos.

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