Colcemid treatment during oocyte maturation improves preimplantation development of cloned pig embryos by influencing meiotic progression and cytoplasmic maturation

Lee, Joohyeong; Park, Jong-Im; Lee, Geun‐Shik; Choi, Jung Hoon; Lee, Seung Tae; Park, Choon‐Keun; Kim, Dae Young; Hyun, Sang‐Hwan; Lee, Eunsong

doi:10.1002/mrd.22498

Cited by 4 publications

(4 citation statements)

References 44 publications

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“…Demecolcine is a microtubule‐depolymerizing agent that has been shown to efficiently induce partial enucleation of oocytes (Yin et al, ) and has been used for post‐activation of SCNT oocytes (Song, Hyun, Shin, & Lee, ) and in vitro oocyte maturation (Lee et al, ) in pigs. Demecolcine disturbs microtubule polymerization by binding tightly to tubulin dimers, preventing the formation of spindle microtubules by depolymerization (Ibáñez, Albertini, & Overström, ).…”

Section: Discussionmentioning

confidence: 99%

Comparative study of the developmental competence of cloned pig embryos derived from spermatogonial stem cells and fetal fibroblasts

Lee

et al. 2019

Reprod Domestic Animals

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Spermatogonial stem cells (SSC) are promising resources for genetic preservation and restoration of male germ cells in humans and animals. However, no studies have used SSC as donor nuclei in pig somatic cell nuclear transfer (SCNT). This study investigated the potential for use of porcine SSC as a nuclei donor for SCNT and developmental competence of SSC‐derived cloned embryos. In addition, demecolcine was investigated to determine whether it could prevent rupture of SSC during SCNT. When the potential of SSC to support embryonic development after SCNT was compared with that of foetal fibroblasts (FF), SSC‐derived SCNT embryos showed a higher (p < .05) developmental competence to the blastocyst stage (47.8%) than FF‐derived embryos (25.6%). However, when SSC were used as donor nuclei in the SCNT process, cell fusion rates were lower (p < .05) than when FF were used (61.9% vs. 75.8%). Treatment of SSC with demecolcine significantly (p < .05) decreased rupture of SSC during the SCNT procedure (7.5% vs. 18.8%) and increased fusion of cell‐oocyte couplets compared with no treatment (74.6% vs. 61.6%). In addition, SSC‐derived SCNT embryos showed higher blastocyst formation (48.4%) than FF‐derived embryos without (28.4%) and with demecolcine treatment (17.4%), even after demecolcine treatment. Our results demonstrate that porcine SSC are a desirable donor cell type for production of SCNT pig embryos and that demecolcine increases production efficiency of cloned embryos by inhibiting rupture of nuclei donor SSC during SCNT.

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Section: Discussionmentioning

confidence: 99%

Comparative study of the developmental competence of cloned pig embryos derived from spermatogonial stem cells and fetal fibroblasts

Lee

et al. 2019

Reprod Domestic Animals

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“…In pigs, supplementation of in vitro maturation (IVM) culture with lanosterol improved preimplantation development of SCNT embryos, possibly by elevating lipid content of oocytes or regulating genes involved in the cholesterol biosynthetic pathway in cumulus cells or those involved in lipid metabolism and apoptosis, with a positive effect on blastocyst development [ 54 ]. Furthermore, the addition of rapamycin [ 55 ], colcemide [ 56 ], or coculture with denuded oocytes and their oocyte secreted factors [ 57 , 58 ] were also tested during IVM in order to stimulate preimplantation development in SCNT embryos.…”

Section: Introductionmentioning

confidence: 99%

Choosing a culture medium for SCNT and iSCNT reconstructed embryos: from domestic to wildlife species

Cordova¹,

King²,

Mastromonaco³

2017

J Anim Sci Technol

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Over the past decades, in vitro culture media have been developed to successfully support IVF embryo growth in a variety of species. Advanced reproductive technologies, such as somatic cell nuclear transfer (SCNT), challenge us with a new type of embryo, with special nutritional requirements and altered physiology under in vitro conditions. Numerous studies have successfully reconstructed cloned embryos of domestic animals for biomedical research and livestock production. However, studies evaluating suitable culture conditions for SCNT embryos in wildlife species are scarce (for both intra- and interspecies SCNT). Most of the existing studies derive from previous IVF work done in conventional domestic species. Extrapolation to non-domestic species presents significant challenges since we lack information on reproductive processes and embryo development in most wildlife species. Given the challenges in adapting culture media and conditions from IVF to SCNT embryos, developmental competence of SCNT embryos remains low. This review summarizes research efforts to tailor culture media to SCNT embryos and explore the different outcomes in diverse species. It will also consider how these culture media protocols have been extrapolated to wildlife species, most particularly using SCNT as a cutting-edge technical resource to assist in the preservation of endangered species.

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“…A aquisição dessa competência ocorre, in vivo, durante a sua fase de crescimento, ou seja, simultaneamente ao desenvolvimento do folículo. In vitro, a maturação espontânea dos ovócitos causa uma assincronia entre a maturação nuclear e citoplasmática levando a uma diminuição da competência (Lee et al, 2015).…”

Section: Aquisição Da Competência Ovocitáriaunclassified

“…Na maturação citoplasmática há uma reorganização de estruturas para a periferia do ovócito e na maturação molecular o acúmulo de nutrientes, substratos e mRNA que são necessários para o término da maturação, fecundação e para o futuro desenvolvimento embrionário inicial (Watson, 2007;Gottardi e Mingoti, 2009). Nesse período, é importante que haja uma sincronização entre a maturação nuclear e citoplasmática para que se obtenha uma boa eficiência da PIVE (Lee et al, 2015).…”

Section: Maturação Ovocitáriaunclassified

Padrão de metilação do gene XIST e da ICR/H19 em ovócitos imaturos e maturados in vitro de porcas cíclicas e marrãs pré-púberes

Silva¹

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The reproductive age of the female is one of the factors that affects the in vitro embryo production. It is known that oocytes from prepubertal females compared to cycling females have lower developmental competence. Therefore, it is important to better understand the aspects causing this lesse competence to achieve better efficiency of the IVP. In this research, the methylation pattern of the XIST gene and the ICR/H19 of oocytes obtained from prepubertal gilts (g) and cycling sows (s) were compared. Regarding the ICR/H19, there were no differences for methylation levels among the groups. The methylation percentage were: gGV (36.15 ± 8.6%), sGV (30.14 ± 7.2%), gMII (17.35 ± 6.7%) and sMII (19.96 ± 6,9%). However, when compared to the control (spermatozoa-94.3 ± 1.04%), gMIII and sMII were less methylated (p=0.0001). These data confirm the imprinted pattern of the gene, with spermatozoa highly methylated and MII oocytes hypomethylated. The XIST gene showed different methylation pattern when comparing gGV (17.29 ± 5.8%) and sGV (48.81 ± 9.6%) groups (p=0.0305), gGV and gMII (0.28 ± 0.2%) (p=0.0342) and gMIII and sMII (82.35%) (p=0.0001). However, to the spermatozoa (0.42 ± 0.42%), sMII oocytes comparing were different (p = 0.0001). These data confirm that this region of the XIST also exhibits an imprinted pattern, with spermatozoa demethylated and the oocytes highly methylated. In addition, results showed that less competent oocytes, from gilts, were unable to correctly reprogram the methylation pattern of this region of XIST after in vitro maturation. Thus, it is suggested that this region of XIST has potential to be used as an epigenetic molecular marker for oocyte competence, since the less competent oocytes exhibit an altered methylation pattern than that what is expected for a matured competent oocyte.

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Colcemid treatment during oocyte maturation improves preimplantation development of cloned pig embryos by influencing meiotic progression and cytoplasmic maturation

Cited by 4 publications

References 44 publications

Comparative study of the developmental competence of cloned pig embryos derived from spermatogonial stem cells and fetal fibroblasts

Comparative study of the developmental competence of cloned pig embryos derived from spermatogonial stem cells and fetal fibroblasts

Choosing a culture medium for SCNT and iSCNT reconstructed embryos: from domestic to wildlife species

Padrão de metilação do gene XIST e da ICR/H19 em ovócitos imaturos e maturados in vitro de porcas cíclicas e marrãs pré-púberes

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