scholarly journals 55IN VITRO DEVELOPMENT OF ENUCLEATED DOMESTIC CAT OOCYTES RECONSTRUCTED WITH SKIN FIBROBLASTS OF DOMESTIC AND LEOPARD CATS

2004 ◽  
Vol 16 (2) ◽  
pp. 149 ◽  
Author(s):  
C. Lorthongpanich ◽  
C. Laowtammathron ◽  
S. Muenthaisong ◽  
T. Vetchayan ◽  
M. Ketudat-Cairns ◽  
...  
Keyword(s):  
Nuclear Transfer ◽  
Donor Cell ◽  
Cell Types ◽  
Blastocyst Stage ◽  
Skin Fibroblasts ◽  
Domestic Cat ◽  
Developmental Potential ◽  
A Cell ◽  
Vitro Development

The domestic cat is a valuable model for studies in assisted reproductive technology in felid species. Therefore, in this experiment we evaluated the in vitro developmental potential of enucleated domestic cat oocytes reconstructed with somatic cells from domestic and leopard cats. Skin fibroblasts were isolated from female domestic and leopard cats. The oocytes were collected by aspiration of follicles from ovaries that were superovulated with 200IU PMSG. In vitro-matured oocytes were enucleated and individual donor cells (diameter 14–16μm) were inserted into the perivitelline space of the enucleated oocyte. Fusion was performed at 26–27h post-maturation by placing a cell-oocyte couplet between both tips of the needle electrode and electrostimulating with a 2-DC pulse (30V, 30μs) in fusion medium containing 0.3M Mannitol+0.1mM MgCl2. Activation was performed 1 to 2h post-fusion by incubation in 7% ethanol at room temperature for 5min followed by cultured in 10μgmL−1 cycloheximide and 1.25μgmL−1 cytochalasin D at 38°C in 5% O2, 5% CO2, 90% N2 conditions. After activation, the reconstructed embryos were cultured in 100-μL droplets of Tyrode’s medium (Gomez et al., 2003 Theriogenology 60, 239–251.) supplemented with 0.3% BSA at 38°C in a 5% O2, 5% CO2, 90% N2 environment for 2d. Then, 8-cell embryos were cultured in 100-μL droplets of Tyrode’s medium supplemented with 10% FCS at 38°C in a 5% O2, 5% CO2, 90% N2environment for 5d. The cleavage rates of oocytes reconstructed with either donor cell types were not different. The percentages of blastocyst formation from parthenogenotes and nuclear transfer embryos derived from domestic cat fibroblasts (8/56, 14.3% and 7/51, 13.7%, respectively) were significantly higher than that for nuclear transfer embryos constructed with leopard cat fibroblasts (3/45, 6.7%). These results indicate that enucleated domestic cat oocytes reconstructed with skin fibroblasts of leopard cats can develop to the blastocyst stage. This experiment was supported by Suranaree University of Technology. Table 1 In vitro development of domestic cat oocytes reconstructed with domestic and leopard skin fibroblasts and parthenogenetic activation

310 NUCLEAR AND MICROTUBULE REMODELING AND IN VITRO DEVELOPMENT OF NUCLEAR TRANSFERRED CAT OOCYTES WITH SKIN FIBROBLASTS OF DOMESTIC CAT AND LEOPARD CAT

2006 ◽  
Vol 18 (2) ◽  
pp. 262 ◽  
Author(s):  
X. J. Yin ◽  
E. G. Choi ◽  
S. J. Cho ◽  
J. Y. Jin ◽  
N. H. Kim ◽  
...  
Keyword(s):  
Nuclear Transfer ◽  
Statistical Significance ◽  
Domestic Cat ◽  
Developmental Potential ◽  
Decondensed Chromatin ◽  
Leopard Cat ◽  
Prionailurus Bengalensis ◽  
Microtubule Aster ◽  
Vitro Development

The leopard cat (Prionailurus bengalensis), a member of the felidae family, is a threatened animal in South Korea. In terms of endangered felids, nuclear transfer is a potentially valuable technique for assuring the continuation of species with dwindling numbers. The protocol for nuclear transfer has been described previously (Yin et al. 2005 Reproduction 129, 245-249). In this experiment we evaluated nuclear and microtubule remodeling and the in vitro developmental potential of enucleated cat oocytes reconstructed with nuclei from either domestic cat fibroblasts (DCF) or leopard cat fibroblasts (LCF). Microtubule aster was allocated to decondensed chromatin at 6 h post-activation following nuclear transfer of fibroblast cells from both DCF and LCF (3/3 in DCF, 2/3 in LCF), suggesting the introduction of a somatic cell centrosome (Kim et al. 1996 Mol. Reprod. Dev. 43, 248-255; Park et al. 2004 Mol. Reprod. Dev. 68, 25-34). At 12 h following nuclear transfer, the nucleus swelled into a large pronucleus-like structure in most reconstructed oocytes (5/9 in DCF and 4/6 in LCF), which showed further enlargement until 18 h after nuclear transfer (4/6 in DCF, 4/6 in LCF). Two microtubule asters were seen near the swollen nucleus. At 18 h following nuclear transfer, the mitotic metaphase (1/6 in DCF) or two cell divisions (1/6 in DCF, 2/6 in LCF) were observed. The percentage of blastocyst formation from nuclear transfer embryos derived from DCF (4/46, 8.6%) was not significantly different from that for nuclear transfer embryos constructed with LCF (4/52, 7.6%). Statistical significance was established at the P < 0.05 level by a X2-test (SAS; SAS Institute, Inc., Cary, NC, USA). These results indicate that nuclear and microtubule remodeling processes and in vitro developmental ability are similar in cat oocytes reconstructed with both domestic cat and leopard cat nuclei. This work was supported by KOSEF (grant # M10525010001-05N2501-00110).

scholarly journals 36COMPARISON OF THE DEVELOPMENTAL POTENTIAL OF CAPRINE NUCLEAR TRANSFER EMBRYOS DERIVED FROM IN VITRO AND IN VIVO MATURED OOCYTES

2004 ◽  
Vol 16 (2) ◽  
pp. 140
Author(s):  
Y. Echelard ◽  
E. Memili ◽  
S.L. Ayres ◽  
M. O'Coin ◽  
L.H. Chen ◽  
...  
Keyword(s):  
Nuclear Transfer ◽  
Reproductive Tract ◽  
Donor Cell ◽  
Blastocyst Stage ◽  
Serum Starvation ◽  
Developmental Potential ◽  
Fetal Fibroblasts ◽  
Student’S T

The objective of this study was to compare the development to the blastocyst stage of reconstructed caprine nuclear transfer (NT) embryos derived from two sources of ova. In vivo oocytes were flushed from the oviduct of superovulated donors by exposing the reproductive tract via a small ventral laparotomy. In vitro oocytes were collected from ovaries supplied by an abattoir located in Purdue, IN. Oocytes were aspirated, cultured in maturation medium (M199 +10% goat serum, 3μgmL−1 LH, 3μgmL−1 FSH and 0.22mM sodium pyruvate), and shipped overnight (38°C, air). Donor cell preparation and NT procedures were as previously reported (Behboodi et al., 2001 Theriogenology 55, 254 abst). Donor cells were transfected female fetal fibroblasts that were synchronized by 4 days of serum starvation, followed by a 10-hour exposure to medium containing 10% FCS. Oocytes were enucleated, karyoplast-cytoplast couplets were reconstructed, fused and then activated simultaneously by a single electrical pulse. Couplets containing in vitro oocytes were incubated in the presence of 5μgmL−1 ionomycin after fusion. Fused couplets were co-cultured in TCM199 with 10% FCS and oviductal epithelial cells for 8–10 days (38°C, 5% CO2). Embryos that developed in vitro to the blastocyst stage were surgically transferred to recipients. Pregnancies were confirmed by ultrasonography. One live kid was delivered on Day 150 of gestation via elective C-section. Southern blotting analysis confirmed that it was derived from the transgenic donor cell line. These experiments show that in vivo matured oocytes not only better support caprine NT embryo development to the blastocyst stage, but also can result in live birth (table). Although fusion and cleavage rates were similar in the two groups, development to the blastocyst stage was significantly higher (Student’s t-test) in the group utilizing in vivo-matured oocytes. In conclusion, this is the first live goat produced from goat NT blastocysts developed in vitro. This suggests that in vivo matured oocytes may be superior to oocytes developed in vitro for generating live animals from NT blastocysts. Table 1

39 BOVINE SOMATIC CELL NUCLEAR TRANSFER USING CUMULUS - OOCYTE COMPLEXES COLLECTED FROM THE IDENTICAL INDIVIDUAL BY OVUM PICKUP

2007 ◽  
Vol 19 (1) ◽  
pp. 138 ◽  
Author(s):  
K. Hasegawa ◽  
S. Takahashi ◽  
S. Akagi ◽  
K. Takeda ◽  
K. Imai ◽  
...  
Keyword(s):  
Nuclear Transfer ◽  
Cumulus Cells ◽  
Single Strand Conformation Polymorphism ◽  
Blastocyst Stage ◽  
Polymorphism Analysis ◽  
Developmental Potential ◽  
In Vitro Development ◽  
Developmental Rates ◽  
Vitro Development

We previously produced a cloned calf by nuclear transfer (NT) using cumulus cells removed from cumulus–oocyte complexes (COCs) after IVM. If both cumulus cells and oocytes are obtained identically and individually, and can be used simultaneously for NT, the production of cloned cows will be more expedient. And the cloned offspring produced from them will not exhibit the heteroplasmic mixed mtDNAs of donor cells and recipient oocytes. In this study, we examined the developmental potential of NT embryos using cumulus–oocyte complexes (COCs) collected from cows individually by ovum pickup (OPU). The cumulus cells were removed from COCs after IVM. The cumulus cells and cumulus-free MII oocytes derived from the same cow were used as donor nuclei and recipient oocytes, respectively. NT was performed as previously described (Akagi et al. 2003 Clon Stem Cells 5, 101–108). In Experiment 1, we examined the in vitro development of NT embryos using COCs collected by OPU. The aspiration of the follicles was performed once a week consecutively for 6 weeks in 6 cows (Cows A, B, C, D, E, and F) without hormone stimulation. In Experiment 2, we examined fetal development after the transfer of NT embryos. A Japanese black cow (Cow G) was used for OPU. On Day 7, 13 NT blastocysts were transferred to 7 recipient cows. The mtDNA genotypes of the donor cow and the cloned calf were analyzed by PCR-mediated single-strand conformation polymorphism analysis as previously described (Takeda et al. 2003 Mol. Reprod. Dev. 64, 429–437). The results of Experiment 1 are summarized in Table 1. Fusion rates did not differ among individual cows. However, the developmental rates of NT embryos at the blastocyst stage varied widely among individual cows, with a range of 19 to 64%. In Experiment 2, 2 of 7 recipient cows became pregnant on Day 30. One pregnant cow aborted on Day 60, and another cow calved a healthy calf. The mtDNA genotype of the cloned calf was confirmed to be identical with that of the donor cow. These results indicate that COCs from an identical individual can be used as donor nuclei and recipient oocytes for NT in order to produce female clones with the same mtDNA as that of the donor cow. Table 1.In vitro development of NT embryos using COCs collected by OPU

Preimplantation and postimplantation development of rat embryos cloned with cumulus cells and fibroblasts

Zygote ◽  
2001 ◽  
Vol 9 (2) ◽  
pp. 135-143 ◽  
Author(s):  
Philip Iannaccone ◽  
Greg Taborn ◽  
Ray Garton
Keyword(s):  
Nuclear Transfer ◽  
Donor Cell ◽  
Cumulus Cells ◽  
Cell Types ◽  
Blastocyst Stage ◽  
Surrogate Mothers ◽  
Rat Embryos ◽  
Adult Rat ◽  
Rat Fibroblasts

In this report we demonstrate the successful in vitro culture of fertilised embryos from 1-cell to blastocyst stage, albeit in a strain-dependent fashion. We report procedures for the enucleation of rat oocytes; nuclear transfer by injection of nuclei (NT) from adult rat cumulus cells, rat primary embryonic fibroblasts and genetically modified rat fibroblasts; and activation resulting in advanced preimplantation development. Blastocyst stage rat embryos were obtained after in vitro culture of nuclear transfer zygotes at similar frequencies with each of these nuclear donor cell types. Transfer of NT embryos to surrogate mothers leads to implantation of 24% of the zygotes. These results suggest that the nuclei of cultured rat cells, even following genetic modification, can be reprogrammed to support early embryonic development, which is a prerequisite to cloning the rat.

scholarly journals 64COMPARISON OF DEVELOPMENTAL POTENTIAL OF IN VIVO AND IN VITRO RECIPIENT OOCYTES AFTER NUCLEAR TRANSFER IN GOAT

2004 ◽  
Vol 16 (2) ◽  
pp. 154
Author(s):  
H.S. Park ◽  
M.Y. Lee ◽  
S.P. Hong ◽  
J.I. Jin ◽  
J.K. Park ◽  
...  
Keyword(s):  
Nuclear Transfer ◽  
Electric Pulse ◽  
Serum Starvation ◽  
Cleavage Rate ◽  
Developmental Potential ◽  
In Vitro Development ◽  
Significant Difference ◽  
Vitro Development

Recent techniques in somatic cell nuclear transfer (SCNT) have been widely used for animal research. In addition, SCNT techniques may allow for the rescue of endangered species. Despite efforts for wildlife preservation, however, some threatened or endangered wild animal species will likely become extinct. As a preliminary experiment of a series in wildlife research, we tried to identify an improved method for the production of more transferable NT embryos in goats. Mature donor animals of Korean native goats (20–25kg) were synchronized with a CIDR (type G; InterAg, New Zealand) vaginal implant for 10 days followed by a total of 8 twice daily injections of 70mg of FSH (Folltropine, London, Ontario, Canada) and 400IU of hCG (Chorulon, Intervet, Moxmeer, The Netherlands). Oocytes were then collected surgically by retograde oviduct flush or direct aspiration from ovarian follicles in vivo at 29–34h after hCG. Oocytes collected from follicles were matured in TCM-199 containing 10% FBS and hormones. Prepared ear skin cells from the goat were cultured in TCM-199 containing 10% FBS at 39°C, 5% CO2 in air, and confluent monolayers were obtained. Oocytes were enucleated and donor cells from serum starvation (0.5%) culture were fused through a single electric pulse (DC 2.36kvcm−1, 17μs), and then activated by a single electric pulse (AC 5vmm−1, 5s+DC 1.56kvcm−1, 30μs) or chemical treatment (5μgmL−1 ionomycin 5min−1, 1.9mM 6-DMAP/4h). Reconstructed oocytes were cultured in M16 medium with 10% goat serum (GS) for 6–7 days. Data were analyzed by chi-square test. In in vitro development, significantly (P&lt;0.05) more oocytes were cleaved (24/30, 80.0%) and developed (7/24, 29.2%) to morula or blastocyst stage, respectively, in NT oocytes activated by Iono + DMAP compared to electric stimulated oocytes (2/21, 40.0%; 0/2, 0%). There was a significant difference in in vitro development of NT embryos by the method of oocyte collection. Cleavage rate was higher (P&lt;0.05) in NT embryos from in vivo oocytes (23/28, 82.1%) than in in vitro matured oocytes (19/35, 54.3%), and further development to morula or blastocyst was also significantly (P&lt;0.05%) higher in NT embryos from in vivo oocytes (7/23, 30.4%) than in NT embryos from in vitro matured oocytes (0/19, 0%). When we compared NT embryos to parthenotes, developmental rate was not significantly different between NT embryos and parthenotes. These results strongly suggest that the in vivo oocytes will have superior developmental potential to oocytes matured in vitro. Table 1 Effect of different oocyte source on in vitro development following caprine SCNT

scholarly journals 160EFFECTS OF EXTRACELLULAR ION CONCENTRATIONS ON IN VITRO DEVELOPMENT OF DOMESTIC CAT IVF EMBRYOS

2004 ◽  
Vol 16 (2) ◽  
pp. 202 ◽  
Author(s):  
W.F. Swanson ◽  
A.L. Manharth ◽  
J.B. Bond ◽  
H.L. Bateman ◽  
R.L. Krisher ◽  
...  
Keyword(s):  
Culture Media ◽  
Ionic Composition ◽  
Cell Number ◽  
Blastocyst Stage ◽  
Domestic Cat ◽  
Embryo Viability ◽  
Blastocyst Development ◽  
In Vitro Development ◽  
Vitro Development

Domestic cat embryos typically are cultured in media formulated for somatic cells or embryos from rodents or livestock species. Under these conditions, blastocyst development has been inconsistent and delayed relative to embryos grown in vivo, and embryo viability following transfer has been low. Our goal is to systematically define the culture requirements of the feline embryo to improve embryo development and viability. The objective of this study was to determine the ionic (NaCl, KCl, KH2PO4, and CaCl2:MgSO4) preferences of domestic cat IVF embryos. Anestral female cats were injected (i.m.) with 150IU eCG followed 84h later by 100IUhCG. Oocytes were recovered via laparoscopic follicular aspiration approximately 24h post-hCG injection (Day 0). Semen was collected from one of two males by means of an artificial vagina and washed once in HEPES-buffered IVF medium. Mature cumulus-oocyte complexes were co-incubated with 2.5–5×105 motile sperm mL−1 in IVF medium (100mM NaCl, 4.0mM KCl, 1.0mM KH2 PO4, 2.0mM CaCl2, 1.0mM MgSO4-7H2O, 25.0mM NaHCO3, 3.0mM glucose, 0.1mM pyruvate, 6.0mM L-lactate, 1.0mM glutamine, 0.1mM taurine, 1×MEM nonessential amino acids, 50μgmL−1 gentamicin, and 4.0mgmL−1 BSA) for 19 to 22h in 6% CO2 in air (38.7°C). Cumulus cells were removed and embryos cultured (8–11 embryos/50μL drop; 6% CO2, 5% O2, 89% N2, 38.7°C) in media containing 100.0 or 120.0mM NaCl, 4.0 or 8.0mM KCl, 0.25 or 1.0mM KH2PO4, and 1.0mM:2.0mM or 2.0mM:1.0mM CaCl2:MgSO4 (2×2×2×2 factorial design). The remaining components of the culture medium were identical to the IVF medium (but w/o gentamicin). Development to the blastocyst stage by Day 6, metabolism (glycolysis and pyruvate) of each blastocyst, and final cell number (Hoechst 33342 staining) of all embryos were evaluated. Final cell number of cleaved embryos and development to the blastocyst stage were analyzed using analysis of variance in the GLIMMIX macro of SAS. A total of 236 oocytes were inseminated, yielding 128 cleaved embryos (54%), including 6 blastocysts (4.7% of cleaved embryos). Cell number was not (P&gt;0.05) affected by NaCl, KCl, or KH2PO4 concentrations, but tended (P=0.057) to be higher after culture in 2.0mM:1.0mM CaCl2:MgSO4. Treatments did not significantly affect (P&gt;0.05) development to the blastocyst stage, but numerically more blastocysts were produced in 100.0mM NaCl (4/6), 8.0mM KCl (5/6), or 1.0mM KH2PO4 (5/6). Both CaCl2:MgSO4 ratios resulted in 3 blastocysts. Blastocysts contained 61.08±5.1 (mean±SEM, n=6) cells and actively metabolized glucose (glycolysis, 3.7±0.8pmol/embryo/3h or 0.06±0.01pmol/cell/3h) and pyruvate (0.75±0.27pmol/embryo/3h or 0.013±0.005pmol/cell/3h). These results suggest that the ionic composition of culture media influences the in vitro development of cat IVF embryos. (Supported by NIH grant RR15388.)

111 SLOW FREEZING AND VITRIFICATION OF IN VITRO-MATURED DOMESTIC CAT OOCYTES

2007 ◽  
Vol 19 (1) ◽  
pp. 173 ◽  
Author(s):  
J. Braun ◽  
C. Otzdorff ◽  
T. Tsujioka ◽  
S. Hochi
Keyword(s):  
Polar Body ◽  
Blastocyst Stage ◽  
Domestic Cat ◽  
Slow Freezing ◽  
Developmental Potential ◽  
Freezing Medium ◽  
First Polar Body ◽  
Blastocyst Rate ◽  
Chi Square Analysis

The effects of slow freezing or vitrification as well as exposure to the cryoprotective media without cooling and warming of in vitro-matured domestic cat oocytes on the in vitro development to the blastocyst stage was investigated. Cumulus–oocyte complexes were matured for 24 h in TCM-199 supplemented with 3 mg mL−1 BSA, 1 µg mL−1 estradiol, 0.1 IU mL−1 FSH, and 0.0063 IU mL−1 LH. Denuded oocytes with a detectable first polar body were inseminated with 2 × 106 cells mL−1 cauda epididymal spermatozoa for 22 h in TALP solution. Presumptive zygotes were cultured in modified SOF medium at 38.5°C in 5% CO2 in air. For slow freezing, oocytes were equilibrated for 20 min at ambient temperatures in PBS with 20% FCS containing either 1.5 M ethylene glycol (EG) + 0.2 M sucrose or 1.5 M EG + 0.2 M trehalose. Oocytes were loaded into 0.25-mL straws, cooled to −7°C at 2°C min, held for 5 min, seeded, cooled down to −30°C at 0.3°C min, and finally plunged into liquid nitrogen. The straws were thawed for 5 s at room temperature and for 30 s in a waterbath at 30°C. Oocytes were washed 3 times before insemination. In vitro-matured oocytes were exposed to the cryoprotective media for 30 min before they were inseminated and then they were cultured for 7 days. For vitrification (Hochi et al. 2004 Theriogenology 61, 267–275), a minimum-volume cooling procedure using Cryotop (Kitazato Supply Co., Tokyo, Japan) as a cryodevice was applied. No blastocysts could be obtained after slow freezing with a cryoprotective medium containing 0.2 M sucrose. Simple exposure to the same freezing medium after in vitro maturation without cryopreservation resulted in a blastocyst rate of 7.9% (control oocytes, 10.7%; not significant (NS); chi-square analysis). Use of trehalose as an extracellular cryoprotectant resulted in the harvest of one blastocyst (0.6%) after slow freezing. Exposure to the same cryoprotective medium resulted in a blastocyst rate of 10.0% (fresh control, 10.9%; NS). After exposure of in vitro-matured oocytes to the vitrification solution, a blastocyst rate of 16.0% was observed (8/50), which was not statistically different from the blastocyst rate in fresh control oocytes (16.3%; 15/92). No blastocysts could be obtained after vitrification (0/64). The results (Table 1) demonstrate that there is no obvious toxic effect of the cryoprotectants employed here for slow freezing or vitrification on the in vitro-matured oocytes, but the developmental potential of cryopreserved oocytes to the blastocyst stage is severely impaired. Table 1. Effect of slow freezing or exposure to freezing medium of matured cat oocytes on the development to the blastocyst stage in vitro

58 HISTONE DEACETYLASES INHIBITOR, SCRIPTAID, IS BENEFICIAL TO THE REPROGRAMMING OF SOMATIC NUCLEI FOLLOWING NUCLEAR TRANSFER

2009 ◽  
Vol 21 (1) ◽  
pp. 129
Author(s):  
J. G. Zhao ◽  
J. W. Ross ◽  
Y. H. Hao ◽  
D. M. Wax ◽  
L. D. Spate ◽  
...  
Keyword(s):  
Histone Acetylation ◽  
Histone Deacetylases ◽  
Nuclear Transfer ◽  
Blastocyst Stage ◽  
Untreated Group ◽  
Developmental Competence ◽  
Developmental Potential ◽  
Reconstructed Embryos

Somatic cell nuclear transfer (SCNT) is a promising technology with potential applications in both agriculture and regenerative medicine. The reprogramming of differentiated somatic nuclei into totipotent embryonic state following NT is not efficient and the mechanism is currently unknown. However, accumulating evidence suggests that faulty epigenetic reprogramming is likely to be the major cause of low success rates observed in all mammals produced through SCNT. It has been demonstrated that increased histone acetylation in reconstructed embryos by applying histone deacetylases inhibitor (HDACi) such as trychostatin A (TSA) significantly enhanced the developmental competence in several species in vitro and in vivo. However TSA has been known to be teratogenic. Compared with TSA, Scriptaid is a low toxic but more efficient HDACi (Su GH et al. 2000 Cancer Res. 60, 3137–3142). The objectives of this study were: 1) to investigate and optimize the application Scriptaid to the NT using Landrace fetal fibroblast cells (FFCs) as donor; 2) investigate the effect of increased histone acetylation on the developmental competence of reconstructed embryos from NIH mini inbred FFCs in vitro and in vivo. The reconstructed embryos were treated with Scriptaid at different concentrations (0 nm, 250 nm, 500 nm and 1000 nm) after activation for 14 to 16 h. IVF embryos without treatment were produced as an additional control. Developmental rates to the 2-cell and blastocyst stage were determined. Developmental potential was determined by transferring Day 1 NT zygotes to the oviducts of surrogates on the day of, or one day after, the onset of estrus. Experiments were repeated at least 3 times and data were analyzed with chi-square tests using SAS 6.12 program (SAS institute, Inc., Cary, NC, USA). The percentage blastocyst of cloned embryos using Landrace FFCs as donors treated with 500 nm Scriptaid was the highest and was significantly higher than untreated group (25% v. 11%, P < 0.05). Percent cleaved was not different among four treatment groups. We used 500 nm Scriptaid for 14 to 16 h after activation for all subsequent experiments. Developmental rate to the blastocyst stage was significantly increased in cloned embryos derived from NIH mini inbred FFCs after treating with Scriptaid (21% v. 9%, P < 0.05), while the blastocyst rate in IVF group was 30%. Embryo transfer (ET) results showed that 5/6 (Transferred embryos No. were 190, 109, 154, 174, 152, and 190, respectively) surrogates (83%) became pregnant resulting in 2 healthy piglets from 2 litters (recipients received 190 and 154 embryos, respectively) in the Scriptaid treatment group, while no pregnancies were obtained in the untreated group from 5 ET (Embryos transferred No. are 140, 163, 161, 151 and 151, respectively). These results suggest that 500 nm Scriptaid treatment following activation increase both the in vitro and in vivo development of porcine SCNT embryos from NIH mini inbred FFCs and the hyperacetylation might actually improve reprogramming of the somatic nuclei after NT. Funding from the National Institutes of Health National Center for Research Resources RR018877.

44 IN VITRO DEVELOPMENT OF INTERSPECIES NUCLEAR TRANSFER EMBRYOS GENERATED WITH BOVINE OOCYTES AND EQUINE SKIN FIBROBLASTS

2011 ◽  
Vol 23 (1) ◽  
pp. 128
Author(s):  
J. Lee ◽  
J. Park ◽  
Y. Chun ◽  
W. Lee ◽  
K. Song
Keyword(s):  
Nuclear Transfer ◽  
Polar Body ◽  
Donor Cell ◽  
Skin Fibroblasts ◽  
Developmental Competence ◽  
Cleavage Rate ◽  
Cell Stage ◽  
Bovine Oocytes

Study for equine somatic cell nuclear transfer (SCNT) is an attractive field for research, but it has not been a major field of study because it is hard to obtain a sufficient number of ovaries and it takes a lot of time and effort for the recovery of oocytes matured in vivo by ovum pickup. It was reported that the bovine cytoplast could support the remodelling of equine donor cells (Zhou et al. 2007 Reprod. Domest. Anim. 42, 243–247). The objectives of this study are 1) to monitor the early events of equine SCNT by interspecies SCNT (isSCNT) between bovine cytoplast and equine donor cell, and 2) to investigate the developmental competence of isSCNT embryos. Bovine oocytes were recovered from the follicles of slaughtered ovaries, and matured in TCM-199 supplemented with 10 mU mL–1 FSH, 50 ng mL–1 EGF, and 10% FBS at 39°C under 5% CO2 in air for 22 h. Fibroblasts derived from bovine or equine skin tissues were synchronized at G0/G1 stage by contact inhibition for 72 h. After IVM, oocytes with polar body were enucleated and electrically fused with equine or bovine skin fibroblasts (1.0 kV cm–1, 20 μs, 2 pulses). Fused couplets were activated with 5 μM ionomycin for 4 min followed by 5 h culture in 10 μg mL–1 cycloheximide (CHX) and/or 2 mM 6-DMAP, and cultured in modified synthetic oviduct fluid (mSOF) at 39°C under 5% CO2, 5% O2, and 90% N2 for 7 days. All analyses were performed using SAS (version 9.1; SAS Institute, Cary, NC, USA). The cleavage rate of isSCNT embryos derived from equine cell was not different (252/323, 78.7%; P = 0.94) from that of SCNT embryos derived from bovine cell (230/297, 79.2%). However, the rate of isSCNT embryos developed to over 8-cell stage was lower (3.3%; P < 0.0001) than that of bovine SCNT embryos (39.4%), and total cell number of isSCNT embryos developed to over 8-cell stage was lower (17.5, n = 12; P < 0.0001) than that (80.8, n = 110) of bovine SCNT embryos. Also, the rate of blastocyst formation of isSCNT embryos (0/323; 0.0%) was lower (P < 0.0001) than that of bovine SCNT embryos (83/297; 29.3%). Meanwhile, reconstructed oocytes for isSCNT were fixed at 8 h after activation to investigate the formation of pseudo-pronucleus (PPN) after post-activation treatment with CHX or CHX+6-DMAP. The ratio of oocytes with single PPN after treatment with CHX+6-DMAP (26/35; 74.3%) was not different (P = 0.63) from that of oocytes treated with CHX (24/36; 68.1%). Although isSCNT embryos derived from bovine cytoplast and equine donor cell could not develop to more than the 16-cell stage, it is believed that the results of this isSCNT study could be used for the preliminary data regarding the reprogramming of donor cell in equine SCNT.

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