scholarly journals Expression of PTHrP and PTHR (PTH/PTHrP-r) mRNAs and polypeptides in bovine ovary and stimulation of bovine blastocyst development in vitro following PTHrP treatment during oocyte maturation

2001 ◽  
Vol 203 (3) ◽  
pp. 175-184 ◽  
Author(s):  
P. H. Watson ◽  
M. E. Westhusin ◽  
A. J. Watson
Keyword(s):  
Oocyte Maturation ◽  
Blastocyst Development ◽  
Bovine Ovary ◽  
Development In Vitro ◽  
Stimulation Of ◽  
Bovine Blastocyst

scholarly journals Bovine Blastocyst Development In Vitro: Timing, Sex, and Viability Following Vitrification1

2004 ◽  
Vol 71 (5) ◽  
pp. 1671-1676 ◽  
Author(s):  
Tshimangadzo L. Nedambale ◽  
András Dinnyés ◽  
Xiangzhong Yang ◽  
X. Cindy Tian
Keyword(s):  
Blastocyst Development ◽  
Development In Vitro ◽  
Bovine Blastocyst

scholarly journals PTPN11 (SHP2) Is Indispensable for Growth Factors and Cytokine Signal Transduction During Bovine Oocyte Maturation and Blastocyst Development

Cells ◽  
2019 ◽  
Vol 8 (10) ◽  
pp. 1272 ◽  
Author(s):  
Muhammad Idrees ◽  
Lianguang Xu ◽  
Seok-Hwan Song ◽  
Myeong-Don Joo ◽  
Kyeong-Lim Lee ◽  
...  
Keyword(s):  
Growth Factors ◽  
Embryo Development ◽  
Oocyte Maturation ◽  
Inner Cell Mass ◽  
Cell Mass ◽  
Specific Inhibitor ◽  
Mrna Translation ◽  
Bovine Oocyte ◽  
Blastocyst Development

This study was aimed to investigate the role of SHP2 (Src-homology-2-containing phosphotyrosine phosphatase) in intricate signaling networks invoked by bovine oocyte to achieve maturation and blastocyst development. PTPN11 (Protein Tyrosine Phosphatase, non-receptor type 11) encoding protein SHP2, a positive transducer of RTKs (Receptor Tyrosine Kinases) and cytokine receptors, can play a significant role in bovine oocyte maturation and embryo development, but this phenomenon has not yet been explored. Here, we used different growth factors, cytokines, selective activator, and a specific inhibitor of SHP2 to ascertain its role in bovine oocyte developmental stages in vitro. We found that SHP2 became activated by growth factors and cytokines treatment and was highly involved in the activation of oocyte maturation and embryo development pathways. Activation of SHP2 triggered MAPK (mitogen-activated protein kinases) and PI3K/AKT (Phosphoinositide 3-kinase/Protein kinase B) signaling cascades, which is not only important for GVBD (germinal vesical breakdown) induction but also for maternal mRNA translation. Inhibition of phosphatase activity of SHP2 with PHPS1 (Phenylhydrazonopyrazolone sulfonate 1) reduced oocytes maturation as well as bovine blastocyst ICM (inner cell mass) volume. Supplementation of LIF (Leukemia Inhibitory Factor) to embryos showed an unconventional direct relation between p-SHP2 and p-STAT3 (Signal transducer and activator of transcription 3) for blastocyst ICM development. Other than growth factors and cytokines, cisplatin was used to activate SHP2. Cisplatin activated SHP2 modulate growth factors effect and combine treatment significantly enhanced quality and rate of developed blastocysts.

Micromolar concentration of pentoxifylline improves development in vitro of hamster 8-cell embryos: conrmation of biological viability by embryo transfer

1997 ◽  
Vol 9 (7) ◽  
pp. 697 ◽  
Author(s):  
Rupasri Ain ◽  
P. B. Seshagiri
Keyword(s):  
Embryo Transfer ◽  
Embryo Development ◽  
Human Sperm ◽  
Blastocyst Development ◽  
Preimplantation Embryo Development ◽  
Embryo Culture Medium ◽  
Cell Embryo ◽  
Continuous Presence ◽  
Development In Vitro

The inßuence of the sperm motility stimulant pentoxifylline (PF) on preimplantation embryo development in hamsters was evaluated. Eight-cell embryos were cultured in hamster embryo culture medium (HECM)-2, with or without PF (0· 0233·6 mM). There was 90%, 37% and 29% inhibition of blastocyst development by 3·6 (used for human sperm), 0·9 and 0 ·45 mM PF, respectively. However, 23 µM PF (exposed to hamster oocytes during IVF) signicantly (P < 0·05) improved blastocyst development (63· 6% v. 51· 8%); morulae development was, however, not curtailed by 0·45 mM or 0·9 mM PF (51·8%±6·0 or 50·5%±11·3, respectively). Post-implantation viability of PF-treated embryos was assessed by embryo transfer; 43% of 80 PF-treated embryos implanted compared with 40% of 79 control embryos. Of the 9 recipients, 6 females delivered pups (19, i.e. 16% of transferred embryos or 53% of implanted embryos). These data show that in hamsters, continuous presence of PF at 0·45-3·6 mM is detrimental to 8-cell embryo development whereas 23 µM PF improves the development of embryos to viable blastocysts which produce live offspring.

246 IN VITRO PRODUCTION OF SPRINGBOK (ANTIDORCAS MARSUPIALIS) EMBRYOS

2007 ◽  
Vol 19 (1) ◽  
pp. 239 ◽  
Author(s):  
R. Krisher ◽  
A. Auer ◽  
K. Clark ◽  
K. Emsweller ◽  
S. Rogers ◽  
...  
Keyword(s):  
South Africa ◽  
Oocyte Maturation ◽  
Assisted Reproductive Technologies ◽  
Reproductive Technologies ◽  
Blastocyst Stage ◽  
Developmental Competence ◽  
Genetic Management ◽  
Blastocyst Development ◽  
Antidorcas Marsupialis

The objective of this experiment was to develop in vitro embryo production (IVP) technologies in springbok (Antidorcas marsupialis), a southern African antelope. Springbok, a fairly common species on game farms in parts of South Africa, may be used as a model species for gamete rescue and IVP techniques to be applied to the conservation of other threatened antelope species. Springbok belong to the family bovidae, subfamily antilopinae, tribe antilopini, which comprises about twenty species in genera Gazella, Antilope, Procapra, Antidorcas, Litocranius, and Ammodorcas. In this tribe alone, there are 4 species or subspecies that are critically endangered, 3 that are endangered, and 10 that are considered vulnerable, demonstrating the need for antelope conservation efforts. In addition, our studies contributed to the South African biological resource bank, so that banked springbok semen and embryos might be used in the future for managed genetic contribution to isolated captive or wild populations via assisted reproductive technologies. Oocytes were recovered (3 replicates) from ovaries obtained at supervised culls for management purposes in South Africa, and cultured in defined Gmat or undefined TCM-199 with FCS maturation medium for 28-30 h (Brad et al. 2004 Reprod. Fertil. Dev. 16, 223). Oocytes were fertilized with frozen-thawed springbok epididymal spermatozoa in modified SOF fertilization medium with caffeine (Herrick et al. 2004 Biol. Reprod. 71, 948–958). Eighteen hours after insemination, a randomly selected subset of the zygotes were fixed to determine fertilization success. The remaining zygotes were cultured in G1/G2 media. On Day 7 of culture, embryos were analyzed for development to the morula or blastocyst stage. A total of 259 selected oocytes were collected from 50 females (5.2 selected oocytes/female on average). There was no difference in the percentage of oocytes normally fertilized (2 pronuclei, PN) between oocytes matured in Gmat (n= 43; 12%) and those matured in TCM-199 (n= 42; 10%). There were significantly (P &lt; 0.05) more oocytes penetrated (e2 PN) when matured in TCM (50%) compared to Gmat (23%). There were no differences in embryonic cleavage or morula/blastocyst development (of total oocytes inseminated) between treatments (Gmat,n= 89, 54%, 9.0%; TCM-199, n= 85, 68%, 9.4%, respectively). In both treatments, the average blastocyst grade was 2.125 using the standard bovine grading system (Curtis, Cattle Embryo Transfer Procedure, 1991). In conclusion, in vitro oocyte maturation, fertilization, and embryo culture to the blastocyst stage is possible in springbok. Importantly, blastocysts can be produced in vitro under semi-defined conditions, demonstrating that oocyte maturation without serum does support developmental competence. This is important for the potential international movement of IVP embryos to be used for genetic management in the conservation of antelope species.

13 STRATEGIES TO INCREASE OVULATORY FOLLICLE SIZE AND REDUCE OVULATION TIME IN LACTATING DAIRY COWS

2008 ◽  
Vol 20 (1) ◽  
pp. 87
Author(s):  
J. O. Giordano ◽  
J. L. Edwards ◽  
G. M. Schuenemann ◽  
N. Rohrbach ◽  
F. N. Schrick
Keyword(s):  
Oocyte Maturation ◽  
Elevated Temperatures ◽  
Animal Health ◽  
Ovarian Activity ◽  
Blastocyst Development ◽  
Sterile Saline ◽  
Ovulatory Follicle ◽  
To Receive

In vitro exposure of oocytes to elevated temperatures hastened oocyte maturation; furthermore, performing IVF of heat-stressed oocytes 5 h earlier than the usual 24 h resulted in blastocyst development similar to that of non-heat-stressed controls (Edwards et al. 2005 J. Dairy Sci. 88, 4326–4333). If elevated ambient temperatures in vivo alter oocyte maturation in a similar fashion, then new strategies are needed to induce earlier release of the oocyte from the ovulatory follicle. Current objectives were to examine follicular growth after FSH administration and examine whether treatment with FSH and an exogenously induced LH surge would hasten ovulation. On Day 0 (8 to 9 days after estrus) of the experimental period, lactating Holstein cows (n = 31; 65–115 days in milk; 1–6 lactations) received an EAZI-BREED CIDR (Pfizer Animal Health, New York, NY, USA) plus 100 µg of gonadotropin-releasing hormone (GnRH, IM; Cystorelin, Merial Ltd, Iselin, NJ, USA). On Day 7, CIDRs were removed and cows were administered 500 µg cloprostenol (IM; Estrumate, Schering-Plough Animal Health, Union, NJ, USA). Concurrently, cows were randomly allocated to receive either 80 mg FSH (FSH; n = 15; Folltropin-V, Bioniche Animal Health, Belleville, ON, Canada) or 4 mL of sterile saline (SAL; n = 16). Forty-eight h later (Day 9), cows within the FSH and SAL groups were randomly subdivided to receive either a 100-µg dose of Cysterolin (GnRH) or 3000 IU of hCG (hCG, IM; Chorulon, Intervet Inc., Millsboro, DE, USA) generating 4 treatment combinations (FSH/GnRH, n = 3; FSH/hCG, n = 7; SAL/GnRH, n = 8; and SAL/hCG, n = 8). Ovarian activity was assessed by ultrasonography to evaluate growth of the ovulatory follicle. Following CIDR removal, frequent ultrasonography was utilized to confirm ovulation (disappearance of the dominant follicle). Data were analyzed using the MIXED procedure of SAS (SAS Institute, Inc., Cary, NC, USA). Five cows from the FSH group were removed from the combination treatment due to ovulation occurring before 48 h post-CIDR removal. Size of the ovulatory follicle at time of GnRH or hCG administration was not different between FSH or SAL groups (16.7 � 0.7 v. 17.5 � 0.6 mm, respectively). Total growth of the ovulatory follicle from CIDR removal to ovulation did not differ between FSH (3.04 � 0.7 mm) and SAL (2.75 � 0.7 mm)-treated cows. As calculated from time of CIDR removal, ovulation occurred earlier in FSH (63.6 � 4.5 h) than in SAL (77.2 � 4.4 h; P < 0.05)-treated cows. Combination of FSH/GnRH produced the earliest ovulation (74 � 1.2 h) which was different only from FSH/hCG (78.6 � 0.8 h; P < 0.05), but not from SAL/GnRH or SAL/hCG (77 � 0.8 and 78 � 0.8 h, respectively). Regardless of FSH or SAL treatment, cows treated with GnRH ovulated earlier than those treated with hCG (75.5 � 0.7 v. 78.3 � 0.6 h, respectively; P < 0.05). In conclusion, while FSH was unable to increase the size of the ovulatory follicle, earlier ovulation occurred when given alone or in combination with GnRH.

197 DOES DURATION OF BOVINE OOCYTE MATURATION IN VITRO AFFECT THE SPEED OF EMBRYO DEVELOPMENT IN VITRO AND SEX RATIO AT THE TWO-CELL OR BLASTOCYST STAGE?

2008 ◽  
Vol 20 (1) ◽  
pp. 177
Author(s):  
P. Bermejo-Álvarez ◽  
A. Gutiérrez-Adán ◽  
P. Lonergan ◽  
D. Rizos
Keyword(s):  
Sex Ratio ◽  
Embryo Development ◽  
Blastocyst Stage ◽  
Early Embryo ◽  
Blastocyst Development ◽  
Maturation In Vitro ◽  
Maturational Stage ◽  
Development In Vitro ◽  
Oviduct Fluid

The faster-developing blastocysts in IVC systems are generally considered more viable and better able to survive following cryopreservation or embryo transfer than those that develop more slowly. However, evidence from several species indicates that embryos that reach the blastocyst stage earliest are more likely to be males than females. The aim of this study was to determine whether the duration of maturation could affect early embryo development and, furthermore, the sex ratio of early- or late-cleaved embryos and blastocysts. Cumulus–oocyte complexes were matured in vitro for 16 h (n = 2198) or 24 h (n = 2204). Following IVF, presumptive zygotes from each group were examined every 4 h between 24 and 48 h postinsemination (hpi) for cleavage, and all embryos were cultured to Day 8 in synthetic oviduct fluid to assess blastocyst development. Two-cell embryos at each time point and blastocysts on Days 6, 7, and 8 from both groups were snap-frozen individually for sexing. Sexing was performed with a single PCR using a specific primer BRY. There was a significantly lower number of cleaved embryos from the 16-h compared with the 24-h maturation group at 28 (10.0 � 1.51 v. 28.8 � 3.57%), 32 (35.3 � 1.48 v. 57.6 � 3.33%), 36 (54.8 � 1.76 v. 67.4 � 2.81%), 40 (63.3 � 1.82 v. 72.0 � 2.54%), and 48 (70.6 � 1.78 v. 77.1 � 2.18%) hpi, respectively (mean � SEM; P d 0.05). However, the blastocyst yields on Day 6 (17.1 � 3.11 v. 16.4 � 2.11%), 7 (30.6 � 4.10 v. 34.6 � 3.51%), or 8 (34.1 � 3.90 v. 39.4 � 4.26%) were similar for both groups (mean � SEM; 16 v. 24 h, respectively). Significantly more 2-cell early cleaved embryos (up to 32 hpi) were male compared with the expected 1:1 ratio from both groups (16 h: 1.24:0.76 v. 24 h: 1.17:0.83, P ≤ 0.05); however, the overall sex ratio among 2-cell embryos was significantly different from the expected 1:1 in favor of males only for the 16-h group (1.18:0.82, P ≤ 0.05). The sex ratio of blastocysts on Day 6, 7, or 8 from both groups was not different from the expected 1:1. However, the total number of male blastocysts obtained after 8 days of culture from the 24-h group was significantly different from the expected 1:1 (1.19:0.81, P ≤ 0.05) and approached significance in the 16-h group. These results show that the maturational stage of the oocyte at the time of fertilization has an effect on the kinetics of early cleavage divisions but not on blastocyst yield. Furthermore, irrespective of the duration of maturation, the sex ratio of early-cleaving 2-cell embryos was weighted in favor of males, and this observation was maintained at the blastocyst stage.

38 EFFECT OF OOCYTE MATURATION DURATION ON BLASTOCYST RATES AFTER EQUINE SOMATIC CELL NUCLEAR TRANSFER

2015 ◽  
Vol 27 (1) ◽  
pp. 112 ◽  
Author(s):  
Y. H. Choi ◽  
I. C. Velez ◽  
B. Macías-García ◽  
K. Hinrichs
Keyword(s):  
Somatic Cell ◽  
Oocyte Maturation ◽  
Nuclear Transfer ◽  
Transvaginal Ultrasound ◽  
Direct Injection ◽  
Polar Body ◽  
Cumulus Cells ◽  
Blastocyst Development ◽  
Donor Cells

In equine cloning, the scarcity of equine oocytes places emphasis on development of the most efficient nuclear transfer (NT) methods possible. In other species, using oocytes matured for the shortest duration needed to reach metaphase II has increased NT efficiency. In the present study, we examined the effect of duration of oocyte maturation at the time of enucleation on equine cloned blastocyst production. Oocytes were collected from live mares by transvaginal ultrasound-guided aspiration of all visible follicles ≥5 mm in diameter. The oocytes were held overnight (16–22 h) at room temperature, matured in vitro, and reconstructed with donor cells as described in our previous study (Choi et al. 2013 Theriogenology 79, 791–796). In Experiment 1, oocytes were divided into 2 groups and matured for 20 or 24 h. After enucleation, oocytes were reconstructed by direct injection of donor cells. Reconstructed oocytes were held for 5 h and then activated by treatment with 5 μM ionomycin for 4 min, then injection with sperm extract, followed by incubation in 2 mM 6-DMAP for 4 h. The activated reconstructed oocytes were cultured in global human embryo culture medium under 5% CO2, 6% O2, and 89% N2 at 38.2°C for 7 to 11 days (20 mM glucose was added at Day 5) and blastocyst rate was recorded. Because a low maturation rate was found at 20 h in Experiment 1, in Experiment 2 oocytes were denuded at 20 h and those that were mature were enucleated and used for NT; those that had not cast out a polar body at 20 h were cultured for an additional 3 h (20 + 3h) and then evaluated for polar body formation and used for NT, which was conducted as in Experiment 1. Data were analysed by Fisher's exact test. In Experiment 1, 203 oocytes were collected in 46 aspiration sessions. The rate of oocyte maturation to metaphase II was significantly lower for oocytes cultured for 20 h (35/116, 30%), than for those cultured for 24 h (47/80, 59%). However, the rate of blastocyst development was significantly higher for oocytes cultured for 20 h (11/27, 41%) than for 24 h (2/38, 5%). In Experiment 2, 89 oocytes were collected in 18 aspiration sessions. After 20 h of maturation culture, 22 oocytes were mature (25%). After an additional 3 h of culture, 21 additional oocytes had matured. There were no significant differences between the two treatments (20 and 20 + 3h) in reconstruction rates (77%, 17/22, and 90%, 19/21, respectively) or blastocyst rates (24%, 4/17, and 32%, 6/19, respectively). These results indicate that duration of in vitro maturation, or the duration of presence of cumulus cells, influences blastocyst development after somatic cell NT in the horse. This appears to be due to a benefit of using oocytes immediately after they reach metaphase II; if this is ensured as in Experiment 2, the duration of maturation itself had no effect.This work was supported by the American Quarter Horse Foundation, the Link Equine Research Endowment Fund, Texas A&M University, and by Ms. Kit Knotts.

125 EXAMINING CRITERIA FOR EXTENDING BOVINE BLASTOCYST SURVIVAL IN VITRO

2008 ◽  
Vol 20 (1) ◽  
pp. 143
Author(s):  
F. N. T. Cooke ◽  
T. M. Rodina ◽  
P. J. Hansen ◽  
A. D. Ealy
Keyword(s):  
Conditioned Medium ◽  
Culture System ◽  
Cell Number ◽  
Blastocyst Stage ◽  
Bovine Embryo ◽  
Blastocyst Development ◽  
Interferon Tau ◽  
Cell Numbers ◽  
Bovine Blastocyst

Most of the current culture procedures used for bovine in vitro embryo production terminates at the blastocyst stage. Developing procedures for extending embryo lifespan beyond this phase will provide a valuable tool for understanding events that occur during the second week of pregnancy in cattle. The overall objective of the present studies was to identify culture conditions required to support bovine blastocyst development beyond its initial formation. In the first study, individual day 8 blastocysts (day 0 = day of IVF) were cultured until day 11 in 30 µL microdrops of Potassium Simplex Optimized Medium-Bovine Embryo 2 containing 0.1 mm non-essential amino acids or Tissue Culture Medium 199 (M199). Both media were supplemented with 5% [v/v] fetal bovine serum (FBS) and incubations were in an atmosphere of either 5 or 21% (v/v) oxygen. A medium by oxygen interaction (P = 0.007) occurred when assessing cell number on day 11. Blastocysts cultured in M199 and in a 5% O2 environment had greater (P < 0.002) cell numbers (536 � 49) than blastocysts incubated in other conditions (339 � 28). Conditioned medium from blastocysts incubated in 21% O2 contained greater (P < 0.05) concentrations of bioactive interferon-tau (IFNT) than blastocysts incubated in 5% O2 regardless of medium type (70.5 � 28 v. 17.2 � 2.6 ng mL–1). In a follow-up study, blastocysts could remain morphologically viable through day 11 in M199 containing at least 2.5% FBS. To examine whether oxidative stress was responsible for the increase in IFNT production under 21% O2, blastocysts were incubated under a 5% O2 atmosphere in M199 containing 2.5% FBS and increasing concentrations of tert-butylhydroperoxide (tBH), a membrane-permeable oxidative agent. Addition of e3 nm tBH decreased cell numbers but did not increase IFNT concentrations in conditioned medium. To examine whether blastocysts could survive beyond day 11 in culture, day 11 blastocysts were transferred to 400 �L of M199 with 20% FBS under 5% oxygen and cultured from day 11 to 20–21 post-IVF. Half of the medium was replaced every 2–3 days. On day 13–14, 16.6 � 6.1% of blastocysts showed initial signs of degeneration. A portion of blastocysts (32.9 � 9.6%) began attaching to plates on days 13–15 and produced outgrowths that appeared viable on days 20–21. All of the non-attached blastocysts degenerated by day 17–18. No blastocyst elongation was detected. In conclusion, a culture system was developed that sustains blastocyst viability and IFNT production in vitro to day 11. Although this culture system allowed blastocyst survival until day 14, normal conceptus development (i.e. elongation/filamentation) was not achieved. Nonetheless, the culture system provides a useful tool for examining the initial stages of blastocyst development and IFNT production from individual bovine embryos.

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