Your search keyword '"SWINE cloning"' showing total 39 results

1. Progress in in vitro culture and gene editing of porcine spermatogonial stem cells.

Author

Yi-Zhuo Sun, Si-Tong Liu, Xiao-Meng Li, and Kang Zou

Subjects

SPERMATOZOA, STEM cells, IN vitro studies, GENOME editing, SWINE cloning

Abstract

The article offers information on in vitro culture and gene editing of porcine spermatogonial stem cells. Topics discussed include application of gene editing in pig cloning technology; better serve animal husbandry, improve livestock fecundity, and enhance potential clinical use; and requirement of identification of key growth factors, component finite medium, and appropriate feeder cells for porcine spermatogonial stem cells.

Published

2019

2. Maternal dietary supplementation of arginine increases the ratio of total cloned piglets born to total transferred cloned embryos by improving the pregnancy rate of recipient sows.

Author

Li, Zicong, Yue, Zhimin, Ao, Zheng, Zhao, Chengfa, Zhao, Chengcheng, Cai, Gengyuan, Zheng, Enqin, Yang, Jie, Gu, Ting, Yang, Huaqiang, Hong, Linjun, Xu, Zheng, Liu, Dewu, Wu, Zhenfang, Shi, Junsong, and Zeng, Fang

Subjects

*PHYSIOLOGICAL effects of arginine, *DIETARY supplements, *PIGLETS, *BLOOD plasma, *SWINE embryology, *SWINE cloning

Abstract

The extremely low full-term developmental efficiency of cloned pig embryos limits the practical application of pig cloning techniques. Maternal dietary supplementation of the nutritionally important amino acid, arginine, can enhance prenatal developmental rate of in vivo fertilization-derived pig embryos. It was hypothesized that maternal dietary addition of arginine can also improve the developmental capacity of cloned pig embryos. To test this hypothesis, there was a comparison of the reproductive performance between recipient sows fed an L-arginine-supplemented diet (L-Arg group) and those fed the control diet (control group). There was a subsequent comparison of the developmental indexes of cloned piglets farrowed in the L-Arg and control groups of surrogate sows. Dietary supplementation of L-arginine during gestation days 14–75 increased the plasma concentrations of arginine and arginine metabolites, including nitric oxide, spermidine, and putrescine in recipient sows of transferred cloned pig embryos. Although maternal arginine addition did not affect the birth weight and placental development indexes of newborn cloned piglets, it significantly increased the ratio of total cloned piglets born to total transferred cloned pig embryos by increasing the pregnancy rate of recipient sows. The results of this study suggest that nutritional management of recipient sows is an effective approach to improve the developmental rate of cloned pig embryos. [ABSTRACT FROM AUTHOR]

Published

2018

3. Evaluation of porcine stem cell competence for somatic cell nuclear transfer and production of cloned animals.

Author

Secher, Jan O., Liu, Ying, Petkov, Stoyan, Luo, Yonglun, Li, Dong, Hall, Vanessa J., Schmidt, Mette, Callesen, Henrik, Bentzon, Jacob F., Sørensen, Charlotte B., Freude, Kristine K., and Hyttel, Poul

Subjects

*SOMATIC cell nuclear transfer, *SWINE cloning, *GERM cells, *INDUCED pluripotent stem cells, *DOXYCYCLINE

Abstract

Porcine somatic cell nuclear transfer (SCNT) has been used extensively to create genetically modified pigs, but the efficiency of the methodology is still low. It has been hypothesized that pluripotent or multipotent stem cells might result in increased SCNT efficacy as these cells are closer than somatic cells to the epigenetic state found in the blastomeres and therefore need less reprogramming. Our group has worked with porcine SCNT during the last 20 years and here we describe our experience with SCNT of 3 different stem cell lines. The porcine stem cells used were: Induced pluripotent stem cells (iPSCs) created by lentiviral doxycycline-dependent reprogramming and cultered with a GSK3β- and MEK-inhibitor (2i) and leukemia inhibitor factor (LIF) (2i LIF DOX-iPSCs), iPSCs created by a plasmid-based reprogramming and cultured with 2i and fibroblast growth factor (FGF) (2i FGF Pl-iPSCs) and embryonic germ cells (EGCs), which have earlier been characterized as being multipotent. The SCNT efficiencies of these stem cell lines were compared with that of the two fibroblast cell lines from which the iPSC lines were derived. The blastocyst rates for the 2i LIF DOX-iPSCs were 14.7%, for the 2i FGF Pl-iPSC 10.1%, and for the EGCs 34.5% compared with the fibroblast lines yielding 36.7% and 25.2%. The fibroblast- and EGC-derived embryos were used for embryo transfer and produced live offspring at similar low rates of efficiency (3.2 and 4.0%, respectively) and with several instances of malformations. In conclusion, potentially pluripotent porcine stem cells resulted in lower rates of embryonic development upon SCNT than multipotent stem cells and differentiated somatic cells. [ABSTRACT FROM AUTHOR]

Published

2017

4. Genome-wide gene expression and DNA methylation differences in abnormally cloned and normally natural mating piglets.

Author

Zou, C., Fu, Y., Li, C., Liu, H., Li, G., Li, J., Zhang, H., and Wu, Y.

Subjects

*GENE expression, *DNA methylation, *SKELETAL muscle, *SWINE cloning, *ANIMAL genetics research

Abstract

Many studies have proved that DNA methylation can regulate gene expression and further affect skeletal muscle growth and development of pig, whereas the mechanisms of how DNA methylation or gene expression alteration ultimately lead to phenotypical differences between the cloned and natural mating pigs remain elusive. This study aimed to investigate genome-wide gene expression and DNA methylation differences between abnormally cloned and normally natural mating piglets and identify molecular markers related to skeletal muscle growth and development in pig. The DNA methylation and genome-wide gene expression in the two groups of piglets were analysed through methylated DNA immunoprecipitation binding high-throughput sequencing and RNA sequencing respectively. We detected 1493 differentially expressed genes between the two groups, of which 382 genes were also differentially methylated. The results of the integrative analysis between DNA methylation and gene expression revealed that the DNA methylation levels showed a significantly negative and monotonic correlation with gene expression levels around the transcription start site of genes. By contrast, no notable monotonic correlation was observed in other regions. Furthermore, we identified some interesting genes and signalling pathways ( e.g. myosin, heavy chain 7 and mammalian target of rapamycin) which possibly play essential roles in skeletal muscle growth and development. The results of this study provide insights into the relationship of DNA methylation with gene expression in newborn piglets and into the mechanisms in abnormally cloned animals through somatic cell nuclear transfer. [ABSTRACT FROM AUTHOR]

Published

2016

5. Production of Pigs by Hand-Made Cloning Using Mesenchymal Stem Cells and Fibroblasts.

Author

Yang, Zhenzhen, Vajta, Gábor, Xu, Ying, Luan, Jing, Lin, Mufei, Liu, Cong, Tian, Jianing, Dou, Hongwei, Li, Yong, Liu, Tianbin, Zhang, Yijie, Li, Lin, Yang, Wenxian, Bolund, Lars, Yang, Huanming, and Du, Yutao

Subjects

*SWINE cloning, *MESENCHYMAL stem cells, *SOMATIC cell nuclear transfer, *POLYMERASE chain reaction, *FIBROBLASTS, *BLASTOCYST

Abstract

Mesenchymal stem cells (MSCs) exhibited self-renewal and less differentiation, making the MSCs promising candidates for adult somatic cell nuclear transfer (SCNT). In this article, we tried to produce genome identical pigs through hand-made cloning (HMC), with MSCs and adult skin fibroblasts as donor cells. MSCs were derived from either adipose tissue or peripheral blood (aMSCs and bMSCs, respectively). MSCs usually showed the expression pattern of CD29, CD73, CD90, and CD105 together with lack of expression of the hematopoietic markers CD34and CD45. Flow cytometry results demonstrated high expression of CD29 and CD90 in both MSC lines, while CD73, CD34, and CD45 expression were not detected. In contrary, in reverse transcription-polymerase chain reaction (RT-PCR) analysis, CD73 and CD34 were detected indicating that human antibodies CD73 and CD34 were not suitable to identify porcine cell surface markers and porcine MSC cellular surface markers of CD34 might be different from other species. MSCs also had potential to differentiate successfully into chondrocytes, osteoblasts, and adipocytes. After HMC, embryos reconstructed with aMSCs had higher blastocyst rate on day 5 and 6 than those reconstructed with bMSCs and fibroblasts (29.6% ± 1.3% and 41.1% ± 1.4% for aMSCs vs. 23.9% ± 1.2% and 35.5% ± 1.6% for bMSCs and 22.1% ± 0.9% and 33.3% ± 1.1% for fibroblasts, respectively). Live birth rate per transferred blastocyst achieved with bMSCs (1.59%) was the highest among the three groups. This article was the first report to compare the efficiency among bMSCs, aMSCs, and fibroblasts for boar cloning, which offered a realistic perspective to use the HMC technology for commercial breeding. [ABSTRACT FROM AUTHOR]

Published

2016

6. Expression of recombinant human α-lactalbumin in milk of transgenic cloned pigs is sufficient to enhance intestinal growth and weight gain of suckling piglets.

Author

Ma, Jin, Li, Qiuyan, Li, Yan, Wen, Xiao, Li, Zhiyuan, Zhang, Zaihu, Zhang, Jiuming, Yu, Zhengquan, and Li, Ning

Subjects

*GENE expression, *LACTALBUMIN, *SWINE cloning, *ANTI-infective agents, *IMMUNOREGULATION, *ANTIHYPERTENSIVE agents

Abstract

Human α-lactalbumin (HLA) has very high nutritional value and important physiological functions during the neonatal period. The peptides derived from HLA provide diverse health benefits including antimicrobial, antiviral, immune-modulating, and antihypertensive effects. Thus, it is worth investigating the effects on offspring development of increasing HLA in milk. In this study, we found that recombinant human α-lactalbumin (rHLA) exhibits efficient inhibition of dipeptidyl peptidase-IV (DPP-IV) activity in an in vitro simulated gastrointestinal digestion system. Using a BAC clone containing the complete HLA gene as a candidate vector, we generated two lines of transgenic cloned sows via somatic cell nuclear transfer that over-expressed rHLA. The average concentrations of rHLA in milk from the two lines of transgenic cloned sows were 2.24 ± 0.71 mg/ml and 2.67 ± 1.29 mg/ml. The feeding experiments revealed that rHLA represses dipeptidyl peptidase-IV (DPP-IV) activity in vivo . Furthermore, the piglets reared by rHLA transgenic cloned sows exhibit better performance in gain of body weight and intestine growth than the control piglets reared by non-transgenic sows. Therefore, these findings indicate that rHLA could serve as a natural precursor for a DPP-IV inhibitor, and the transgenic technology that produced the over-expression of rHLA could be a useful method for pig breeders to improve lactation performance. [ABSTRACT FROM AUTHOR]

Published

2016

7. BIX-01294 increases pig cloning efficiency by improving epigenetic reprogramming of somatic cell nuclei.

Author

Jiaojiao Huang, Hongyong Zhang, Jing Yao, Guosong Qin, Feng Wang, Xianlong Wang, Ailing Luo, Qiantao Zheng, Chunwei Cao, and Jianguo Zhao

Subjects

ANIMAL cloning, SWINE cloning, SOMATIC cell nuclear transfer

Abstract

Accumulating evidence suggests that faulty epigenetic reprogramming leads to the abnormal development of cloned embryos and results in the low success rates observed in all mammals produced through somatic cell nuclear transfer (SCNT). The aberrant methylation status of H3K9me and H3K9me2 has been reported in cloned mouse embryos. To explore the role of H3K9me2 and H3K9me in the porcine somatic cell nuclear reprogramming, BIX-01294, known as a specific inhibitor of G9A (histone-lysine methyltransferase of H3K9), was used to treat the nuclear-transferred (NT) oocytes for 14-16 h after activation. The results showed that the developmental competence of porcine SCNT embryos was significantly enhanced both in vitro (blastocyst rate 16.4% vs 23.2%, P!0.05) and in vivo (cloning rate 1.59% vs 2.96%) after 50 nm BIX-01294 treatment. BIX-01294 treatment significantly decreased the levels of H3K9me2 and H3K9me at the 2- and 4-cell stages, which are associated with embryo genetic activation, and increased the transcriptional expression of the pluripotency genes SOX2, NANOG and OCT4 in cloned blastocysts. Furthermore, the histone acetylation levels of H3K9, H4K8 and H4K12 in cloned embryos were decreased after BIX-01294 treatment. However, co-treatment of activated NT oocytes with BIX-01294 and Scriptaid rescued donor nuclear chromatin from decreased histone acetylation of H4K8 that resulted from exposure to BIX-01294 only and consequently improved the preimplantation development of SCNT embryos (blastocyst formation rates of 23.7% vs 21.5%). These results indicated that treatment with BIX-01294 enhanced the developmental competence of porcine SCNT embryos through improvements in epigenetic reprogramming and gene expression. [ABSTRACT FROM AUTHOR]

Published

2016

8. Cloning and distribution of neuropeptide W and its receptors in pigs.

Author

Rui Fang, Juan Su, Lucheng Zheng, Mengmeng Jin, Yuanlong Hou, Zhiyu Ma, Tingting Guo, Shenzheng Zhu, Xueli Ma, Ahmed, Ejlal, and Zhihai Lei

Subjects

*SWINE cloning, *NEUROPEPTIDES, *G protein coupled receptors, *ENERGY metabolism, *SWINE nutrition, *ANIMAL species

Abstract

Neuropeptide W (NPW), a novel hypothalamic peptide, is an endogenous ligand for the orphan G protein-coupled receptors GPR7 (NPBWR1) and GPR8 (NPBWR2). Although several studies have implicated NPW in the regulation of feeding and energy metabolism in many species, the precise physiological function of NPW in pigs remains unclear. In this study, we cloned and sequenced NPW, GPR7, and GPR8 cDNA from pigs. NPW, GPR7, and GPR8 mRNA expression was quantified in the pig brain and peripheral tissues by semiquantitative reverse transcriptase polymerase chain reaction. Immunohistochemistry showed that NPW protein expression was limited in the brain and abundant in peripheral tissues. These results suggest that NPW is involved in the regulation of various physiological functions in pigs. The molecular and morphological data from this study provide a basis for further research on the functions of NPW in pigs. [ABSTRACT FROM AUTHOR]

Published

2015

9. Epigenetic Modification of Cloned Embryos Improves Nanog Reprogramming in Pigs.

Author

Huan, Yanjun, Wang, Hongmei, Wu, Zhanfeng, Zhang, Jiguang, Zhu, Jiang, Liu, Zhonghua, and He, Hongbin

Subjects

*EPIGENETICS, *EMBRYOS, *SWINE cloning, *NANOGELS, *TRANSCRIPTION factors, *DEOXYCYTIDINE

Abstract

Incomplete reprogramming of pluripotent genes in cloned embryos is associated with low cloning efficiency. Epigenetic modification agents have been shown to enhance the developmental competence of cloned embryos; however, the effect of the epigenetic modification agents on pluripotent gene reprogramming remains unclear. Here, we investigated Nanog reprogramming and the expression patterns of pluripotent transcription factors during early embryo development in pigs. We found that compared with fertilized embryos, cloned embryos displayed higher methylation in the promoter and 5′-untranslated region and lower methylation in the first exon of Nanog. When 5-aza-2′-deoxycytidine (5-aza-dC) or trichostatin A (TSA) enhanced the development of porcine cloned embryos, Nanog methylation reprogramming was also improved, similar to that detected in fertilized counterparts. Furthermore, our results showed that the epigenetic modification agents improved the expression levels of Oct4 and Sox2 and effectively promoted Nanog transcription in cloned embryos. In conclusion, our results demonstrated that the epigenetic modification agent 5-aza-dC or TSA improved Nanog methylation reprogramming and the expression patterns of pluripotent transcription factors, thereby resulting in the enhanced expression of Nanog and high development of porcine cloned embryos. This work has important implications in the improvement of cloning efficiency. [ABSTRACT FROM AUTHOR]

Published

2015

10. Epigenetic Modification Agents Improve Gene-Specific Methylation Reprogramming in Porcine Cloned Embryos.

Author

Huan, Yanjun, Wu, Zhanfeng, Zhang, Jiguang, Zhu, Jiang, Liu, Zhonghua, and Song, Xuexiong

Subjects

*EPIGENETICS, *DNA methylation, *SWINE embryos, *SWINE cloning, *GENOMICS, *FERTILIZATION in vitro

Abstract

Incomplete DNA methylation reprogramming in cloned embryos leads to poor cloning efficiency. Epigenetic modification agents can improve genomic methylation reprogramming and the development of cloned embryos, however, the effect of epigenetic modification agents on gene-specific methylation reprogramming remains poorly studied. Here, we investigated DNA methylation reprogramming of pluripotency (Oct4) and tissue specific (Thy1) genes during early embryo development in pigs. In this study, we found that compared with in vitro fertilized counterparts, cloned embryos displayed the disrupted patterns of Oct4 demethylation and Thy1 remethylation. When 5-aza-2'-deoxycytidine (5-aza-dC) or trichostatin A (TSA) enhanced the development of cloned embryos, the transcripts of DNA methyltransferases (Dnmt1 and Dnmt3a), histone acetyltransferase 1 (Hat1) and histone deacetylase 1 (Hdac1) and the methylation and expression patterns of Oct4 and Thy1 became similar to those detected in in vitro fertilized counterparts. Further studies showed that Dnmt1 knockdown in cloned embryos enhanced the methylation reprogramming of Oct4 and Thy1 and promoted the activation of Oct4 and the silence of Thy1. In conclusion, our results demonstrated that cloned embryos displayed incomplete gene-specific methylation reprogramming and disrupted expression patterns of pluripotency and tissue specific genes, and epigenetic modification agents improved gene-specific methylation reprogramming and expression pattern by regulating epigenetic modification related genes. This work would have important implications in improving cloning efficiency. [ABSTRACT FROM AUTHOR]

Published

2015

11. Disruption of Mitochondrion-To-Nucleus Interaction in Deceased Cloned Piglets.

Author

Park, Joonghoon, Lai, Liangxue, Samuel, Melissa S., Wax, David, Prather, Randall S., and Tian, Xiuchun

Subjects

*PIGLET physiology, *SWINE cloning, *SOMATIC cells, *TRANSPLANTATION of cell nuclei, *MITOCHONDRIAL DNA, *OXIDATIVE phosphorylation

Abstract

Most animals produced by somatic cell nuclear transfer (SCNT) are heteroplasmic for mitochondrial DNA (mtDNA). Oxidative phosphorylation (OXPHOS) in clones therefore requires the coordinated expression of genes encoded by the nuclear DNA and the two sources of mitochondria. Such interaction is rarely studied because most clones are generated using slaughterhouse oocytes of unrecorded origin. Here we traced the maternal lineages of seven diseased and five one-month-old live cloned piglets by sequencing their mtDNA. Additionally by using a 13K oligonucleotide microarray, we compared the expression profiles of nuclear and mtDNA-encoded genes that are involved in mitochondrial functions and regulation between the cloned groups and their age-matched controls (n=5 per group). We found that the oocytes used to generate the cloned piglets were of either the Large White or Duroc background, and oocyte genetic background was not related to the clones’ survival. Expression profiles of mtDNA-encoded genes in clones and controls showed intermixed clustering patterns without treatment or maternal lineage-dependency. In contrast, clones and controls clustered separately for their global and nuclear DNA-encoded mitochondrial genes in the lungs for both the deceased and live groups. Functional annotation of differentially expressed genes encoded by both nuclear and mtDNA revealed abnormal gene expression in the mitochondrial OXPHOS pathway in deceased clones. Among the nine differentially expressed genes of the OXPHOS pathway, seven were down-regulated in deceased clones compared to controls, suggesting deficiencies in mitochondrial functions. Together, these data demonstrate that the coordination of expression of mitochondrial genes encoded by nuclear and mtDNA is disrupted in the lung of diseased clones. [ABSTRACT FROM AUTHOR]

Published

2015

12. Methylation and expression changes in imprinted genes H19 and Igf2 during serial somatic cell nuclear transfer using piglet fibroblasts.

Author

Jang, Hoon, Jang, Won-Gu, Kim, Eun-Jung, Do, Minhwa, Oh, Keon-Bong, Hwang, Seongsoo, Shim, Hosup, Choo, Young-Kug, Kwon, Dae-Jin, and Lee, Jeong-Woong

Subjects

*SOMATIC cell nuclear transfer, *SWINE cloning, *METHYLATION, *GENE expression, *SOMATOMEDIN A

Abstract

Cloned pigs produced by somatic cell nuclear transfer (SCNT) are important as a potential alternative source of organs. Although SCNT has created new possibilities for targeted gene modification, the successful cloning of pigs is rare. Here, we successfully conducted serial SCNT for three generations. We determined that the piglet genome was inherited from donor cell nuclei using microsatellite analysis of each generation. The methylation of differentially methylated regions (DMRs) inH19was gradually reduced over the three generations of serial SCNT. By contrast, methylation of the insulin-like growth factor 2 (Igf2) DMR increased in the F1 generation, compared to the F0, and remained at the higher level in the F2 and F3 generations. The methylation patterns of housekeeping genes such asGAPDHandβ-actinwere unchanged in the serially cloned pigs. In addition, expression levels ofH19andIgf2were variable for each generation of serial SCNT piglets, but there was no clear relationship between the methylation and gene expression patterns. Our study conclusively demonstrates that the methylation patterns of DMRs inH19andIgf2were altered, compare to the F0 donor, during serial SCNT, but housekeeping genes were unaffected. [ABSTRACT FROM PUBLISHER]

Published

2015

13. Production of Healthy Cloned Pigs with Neural Stem Cells as Nuclear Donors.

Author

Li, Qiuyan, Wang, Hong, Zhou, GuangBin, Jinfei, Mu, Yan, Li, Zhaihu, Zhang, and Li, Ning

Subjects

*NEURAL stem cells, *SWINE cloning, *SWINE embryos, *TRANSPLANTATION of cell nuclei, *IN vitro studies, *CELL differentiation, *REVERSE transcriptase polymerase chain reaction

Abstract

The objectives of the present study were to establish a porcine neural stem cell (NSC) line and to determine if these NSCs could be used to produce cloned pigs. NSCs were isolated from the brains of three embryonic day 30 fetal pigs and were induced to differentiatein vitro. NSCs and the differentiated cells were harvested for analysis of markers by immunostaining and reverse-transcription polymerase chain reaction (RT-PCR). The NSCs at passage 10 were used for nuclear transfer, and the cloned embryos at the two-cell stage were transferred into the oviducts of surrogate mothers. The results showed that three NSC lines (2 male and 1 female) were successfully established. All NSCs at passage 17 continued to express nestin and Sox2. NSCs could differentiate into neurons (TUBB3+), astrocytes (GFAP+), and oligodendrocytes (O4+). After NSC nuclear transfer, 2020 two-cell stage embryos formed. After embryo transfer, 6 of 10 surrogates were pregnant, and 40 piglets (18 males and 22 females) were born. Twenty-two of these piglets reached sexual maturity and were found to be fertile. The other piglets died within 45 days post-partum. In conclusion, 3 porcine NSC lines capable of self-renewal and differentiation were established, and the cloned embryos derived from these cells could develop to term. Thus, NSCs could be efficient alternative nuclear donors for pig cloning. [ABSTRACT FROM AUTHOR]

Published

2014

14. Effects of Histone Deacetylase Inhibitor Oxamflatin on In Vitro Porcine Somatic Cell Nuclear Transfer Embryos.

Author

Hou, Liming, Ma, Fanhua, Yang, Jinzeng, Riaz, Hasan, Wang, Yongliang, Wu, Wangjun, Xia, Xiaoliang, Ma, Zhiyuan, Zhou, Ying, Zhang, Lin, Ying, Wenqin, Xu, Dequan, Zuo, Bo, Ren, Zhuqing, and Xiong, Yuanzhu

Subjects

*ANIMAL cloning, *ANIMAL epigenetics, *SWINE cloning, *SOMATIC cells, *SOMATIC cell nuclear transfer, *DNA methylation

Abstract

Low cloning efficiency is considered to be caused by the incomplete or aberrant epigenetic reprogramming of differentiated donor cells in somatic cell nuclear transfer (SCNT) embryos. Oxamflatin, a novel class of histone deacetylase inhibitor (HDACi), has been found to improve the in vitro and full-term developmental potential of SCNT embryos. In the present study, we studied the effects of oxamflatin treatment on in vitro porcine SCNT embryos. Our results indicated that the rate of in vitro blastocyst formation of SCNT embryos treated with 1 μM oxamflatin for 15 h postactivation was significantly higher than all other treatments. Treatment of oxamflatin decreased the relative histone deacetylase (HDAC) activity in cloned embryos and resulted in hyperacetylation levels of histone H3 at lysine 9 (AcH3K9) and histone H4 at lysine 5 (AcH4K5) at pronuclear, two-cell, and four-cell stages partly through downregulating HDAC1. The suppression of HDAC6 through oxamflatin increased the nonhistone acetylation level of α-tubulin during the mitotic cell cycle of early SCNT embryos. In addition, we demonstrated that oxamflatin downregulated DNA methyltransferase 1 ( DNMT1) expression and global DNA methylation level (5-methylcytosine) in two-cell-stage porcine SCNT embryos. The pluripotency-related gene POU5F1 was found to be upregulated in the oxamflatin-treated group with a decreased DNA methylation tendency in its promoter regions. Treatment of oxamflatin did not change the locus-specific DNA methylation levels of Sus scrofa heterochromatic satellite DNA sequences at the blastocyst stage. Meanwhile, our findings suggest that treatment with HDACi may contribute to maintaining the stable status of cytoskeleton-associated elements, such as acetylated α-tubulin, which may be the crucial determinants of donor nuclear reprogramming in early SCNT embryos. In summary, oxamflatin treatment improves the developmental potential of porcine SCNT embryos in vitro. [ABSTRACT FROM AUTHOR]

Published

2014

15. ASSIGNMENT FOR GENES ENCODING THE TERMINAL COMPLEMENT COMPONENTS TO PORCINE CHROMOSOME.

Author

Khoa, D. V. Anh and Wimmers, K.

Subjects

*GENETIC code, *CHROMOSOMES, *SWINE cloning, *GENE mapping, *SWINE genetics

Abstract

One of the major goals of the porcine genome projects is building a physical map. To assign the porcine genes encoding the complement components C6, C7, C8 and C9 to porcine chromosomes, we used a porcine 7000Rad Radiation Hybrid panel (IMpRH) containing 118 clones provided by INRA-University of Minnesota. It resulted in assignment of the porcine C6, C7 and C9 genes to chromosome 16q1.4, the porcine C8A and C8B genes to chromosome 6q3.1-q3.5 as well as the porcine C8G gene lonely to chromosome 1q2.13. [ABSTRACT FROM AUTHOR]

Published

2014

16. Pluripotent-related gene expression analyses in single porcine recloned embryo.

Author

Huang, Yongye, Xie, Wanhua, Yao, Chaogang, Han, Yang, Tan, Guangyun, Zhou, Yang, Zhu, Jianguo, Pang, Daxin, Li, Zhanjun, and Tang, Xiaochun

Subjects

PLURIPOTENT stem cells, GENE expression, CELL nuclei, VALPROIC acid, FERTILIZATION in vitro, EMBRYOS, SWINE cloning

Abstract

The developmental ability among embryos produced by three different techniques were examined: there were no significant differences in the developmental rate in porcine embryos produced by in vitro fertilization (IVF) and first generation of somatic cell nucleus transfer (SCNT), but the developmental rate dropped sharply at the 2- to four-cell stage in recloned (second generation of SCNT) embryos. In most recloned embryos, Oct4 and Klf4 were under-expressed at all stages, whereas Sox2 and Nanog were over-expressed at the two-cell stage. In contrast, Nanog was absent in IVF and SCNT embryos at the two-cell stage. The recloned embryos were treated with valproic acid to enhance developmental capacity and this led to an increase in the rate of blastocyst formation and total cell number compared with the findings for untreated recloned embryos (29.8 vs. 12.4 %, 39 vs. 25, respectively, p < 0.05). [ABSTRACT FROM AUTHOR]

Published

2014

17. Effects of high hydrostatic pressure on genomic expression profiling of porcine parthenogenetic activated and cloned embryos.

Author

Lin Lin, Yonglun Luo, Sørensen, Peter, Prætorius, Helle, Vajta, Gabor, Callesen, Henrik, Pribenszky, Csaba, Bolund, Lars, and Kristensen, Torsten Nygård

Subjects

*SWINE cloning, *SWINE embryos, *PHYSIOLOGICAL effects of hydrostatic pressure, *SWINE embryology, *EMBRYOLOGY, *GENE expression in mammals

Abstract

Handmade cloning (HMC) has been used to generate transgenic pigs for biomedical research. Recently, we found that parthenogenetic activation (PA) of porcine oocytes and improved HMC efficiency could be achieved by treatment with sublethal high hydrostatic pressure (HHP). However, the molecular mechanism underlying the effects of HHP treatment on embryonic development is poorly understood and so was investigated in the present study. Thus, in the present study, we undertook genome-wide gene expression analysis in HHP-treated and untreated oocytes, as well as in 4-cell and blastocyst stage embryos derived by PA or HMC. Hierarchical clustering depicted stage-specific genomic expression profiling. At the 4-cell and blastocyst stages, 103 and 163 transcripts were differentially expressed between the HMC and PA embryos, respectively (P < 0.05). These transcripts are predominantly involved in regulating cellular differentiation, gene expression and cell-to-cell signalling. We found that 44 transcripts were altered by HHP treatment, with most exhibiting lower expression in HHP-treated oocytes. Genes involved in embryonic development were prominent among the transcripts affected by HHP. Two of these genes (INHBB and ME3) were further validated by quantitative reverse transcription-polymerase chain reaction. We also observed that HHP treatment activated expression of the imprinting gene DLX5 in 4-cell PA embryos. In conclusion, our genomic expression profiling data suggest that HHP alters the RNA constitution in porcine oocytes and affects the expression of imprinting genes during embryonic development. Pretreatment of oocytes with sublethal high hydrostatic pressure (HHP) can improve the developmental competence of cloned embryos, although the underlying molecular mechanism is poorly understood. In the present study, we used DNA microarray-based genome-wide gene expression profiling and found that HHP treatment predominantly accelerated the use of maternal mRNA (mostly involved in embryonic development) in oocytes and activated the expression of imprinting genes, such as DLX5, which benefits development. Our findings suggest that HHP positively affects genomic reprogramming during embryonic development. [ABSTRACT FROM AUTHOR]

Published

2014

18. Production of viable cloned miniature pigs by aggregation of handmade cloned embryos at the 4-cell stage.

Author

Siriboon, Chawalit, Ching-Fu Tu, Kere, Michel, Ming-Sing Liu, Hui-Jung Chang, Lin-Lin Ho, Miao-En Tai, Wen-Der Fang, Neng-Wen Lo, Jung-Kai Tseng, and Jyh-Cherng Ju

Subjects

*SWINE cloning, *MINIATURE pigs, *EMBRYOS, *CELL aggregation, *SWINE breeds, *CLONING

Abstract

The aim of the present study was to improve the quality of handmade cloned porcine embryos by multiple embryo aggregations. Embryos derived from aggregation of three cloned embryos (3x) had a better blastocyst rate than cloned control (1x) embryos (73.6% vs 35.1%, respectively; P < 0.05), but did not differ from those produced by aggregation of two cloned embryos (2x; 63.0%). Total cell numbers differed among treatments (P < 0.05), with the greatest cell numbers (126) in the 3x group and the lowest (55) in the control group. The ratio of inner cell mass : total cell number was comparable in the 2x and 3x groups (25.1% vs 26.1%, respectively) and was significantly better than that in the control group (15.3%). The proportion of apoptotic cells in 2x and 3x groups was lower than that in the control group (2.7% and 2.2% vs 4.7%, respectively; P < 0.05). Expression of Oct4 and Cdx2 was higher, whereas that of Bax was lower (P < 0.05), in the 3x compared with non-aggregate group. Seven piglets were born to two surrogate mothers after embryo transfer of 3x aggregated blastocysts. In conclusion, aggregated embryos had greater total cell numbers and better pluripotency gene expression, with reduced expression of the pro-apoptosis gene Bax. Collectively, these improvement may be associated with the development of cloned embryos to term. Cloning miniature pigs using handmade or oocyte bisection cloning techniques in combination with embryo aggregation has provided proof-of-principle for this cost-effective technology in other species. The aim of the present study was to improve cloned embryo development by implementing these two biotechnologies; a beneficial effect on cloning efficiency was shown. The technology in this study is potentially useful in organ transplantation, species conservation and establishing embryonic stem cells for the study of human diseases. [ABSTRACT FROM AUTHOR]

Published

2014

19. Effect of epigallocatechin-3-gallate on the in vitro developmental potential of porcine oocytes and embryos obtained parthenogenetically and by somatic cell nuclear transfer.

Author

Li, Yunsheng, Zhang, Chuanbiao, Gao, Yang, Zhang, Yuanliang, Sui, Liucai, Zhang, Xiaorong, and Zhang, Yunhai

Subjects

*EPIGALLOCATECHIN gallate, *EMBRYOS, *PARTHENOGENESIS, *TRANSPLANTATION of cell nuclei, *SWINE cloning, *DEVELOPMENTAL biology, *IN vitro studies

Abstract

The present study aimed to investigate the effects of epigallocatechin-3-gallate (EGCG) on the in vitro development of porcine oocytes, parthenogenetic activation embryos (PA), and somatic cell nuclear transfer (SCNT) embryos. In Experiment 1, 0 (control), 10, 30, and 50 μg/mL EGCG were added to in vitro maturation (IVM) medium to explore the effect of EGCG on IVM of pig oocytes. The matured oocytes were then used to produce PA and SCNT embryos. Either for nuclear maturation of oocytes or for the rates of cleavage and blastocyst of PA and SCNT embryos, no significant difference was found among all groups. However, the total cell number per cloned blastocyst was significantly lower in blastocysts derived from oocytes matured in 50 μg??mL EGCG (P<0.05) as compared with the other groups. In Experiment 2, we cultured pig SCNT and PA embryos in medium containing various concentrations of EGCG to examine the effect of EGCG on preimplantation development. The cleavage and blastocyst rates and the total cell number per blastocyst did not significantly differ between PA and SCNT embryos among all groups. However, the reactive oxygen species level was significantly lower in the PA embryos cultured in 10 μg mL EGCG than the other groups (P<0.05). Our results suggest that high doses of EGCG in IVM are harmful to the oocytes as evidenced by the decreased quality of SCNT embryos, and EGCG has no beneficial effects on in vitro development of pig cloned embryos. [ABSTRACT FROM AUTHOR]

Published

2014

20. Significant improvement of pig cloning efficiency by treatment with LBH589 after somatic cell nuclear transfer.

Author

Jin, Jun-Xue, Li, Suo, Gao, Qing-Shan, Hong, Yu, Jin, Long, Zhu, Hai-Ying, Yan, Chang-Guo, Kang, Jin-Dan, and Yin, Xi-Jun

Subjects

*SWINE cloning, *SOMATIC cells, *TRANSPLANTATION of cell nuclei, *EPIGENETICS, *HISTONE deacetylase inhibitors, *EMBRYOLOGY

Abstract

Abstract: The low success rate of animal cloning by somatic cell nuclear transfer (SCNT) associates with epigenetic aberrancy, including the abnormal acetylation of histones. Altering the epigenetic status by histone deacetylase inhibitors (HDACi) enhances the developmental potential of SCNT embryos. In the current study, we examined the effects of LBH589 (panobinostat), a novel broad-spectrum HDACi, on the nuclear reprogramming and development of pig SCNT embryos in vitro. In experiment 1, we compared the in vitro developmental competence of nuclear transfer embryos treated with different concentrations of LBH589. Embryos treated with 50 nM LBH589 for 24 hours showed a significant increase in the rate of blastocyst formation compared with the control or embryos treated with 5 or 500 nM LBH589 (32.4% vs. 11.8%, 12.1%, and 10.0%, respectively, P < 0.05). In experiment 2, we examined the in vitro developmental competence of nuclear transfer embryos treated with 50 nM LBH589 for various intervals after activation and 6-dimethylaminopurine. Embryos treated for 24 hours had higher rates of blastocyst formation than the other groups. In experiment 3, when the acetylation of H4K12 was examined in SCNT embryos treated for 6 hours with 50 nM LBH589 by immunohistochemistry, the staining intensities of these proteins in LBH589-treated SCNT embryos were significantly higher than in the control. In experiment 4, LBH589-treated nuclear transfer and control embryos were transferred into surrogate mothers, resulting in three (100%) and two (66.7%) pregnancies, respectively. In conclusion, LBH589 enhances the nuclear reprogramming and developmental potential of SCNT embryos by altering the epigenetic status and expression, and increasing blastocyst quality. [Copyright &y& Elsevier]

Published

2013

21. Bone Marrow Mesenchymal Stem Cells Are an Attractive Donor Cell Type for Production of Cloned Pigs As Well As Genetically Modified Cloned Pigs by Somatic Cell Nuclear Transfer.

Author

Li, Zicong, He, Xiaoyan, Chen, Liwen, Shi, Junsong, Zhou, Rong, Xu, Weihua, Liu, Dewu, and Wu, Zhenfang

Subjects

*SWINE cloning, *SWINE genetics, *MESENCHYMAL stem cells, *TRANSPLANTATION of cell nuclei, *SOMATIC cells, *FIBROBLASTS, *BONE marrow cells, *TRANSGENIC animals

Abstract

The somatic cell nuclear transfer (SCNT) technique has been widely applied to clone pigs or to produce genetically modified pigs. Currently, this technique relies mainly on using terminally differentiated fibroblasts as donor cells. To improve cloning efficiency, only partially differentiated multipotent mesenchymal stem cells (MSCs), thought to be more easily reprogrammed to a pluripotent state, have been used as nuclear donors in pig SCNT. Although in vitro-cultured embryos cloned from porcine MSCs (MSCs-embryos) were shown to have higher preimplantation developmental ability than cloned embryos reconstructed from fibroblasts (Fs-embryos), the difference in in vivo full-term developmental rate between porcine MSCs-embryos and Fs-embryos has not been investigated so far. In this study, we demonstrated that blastocyst total cell number and full-term survival abilities of MSCs-embryos were significantly higher than those of Fs-embryos cloned from the same donor pig. The enhanced developmental potential of MSCs-embryos may be associated with their nuclear donors' DNA methylation profile, because we found that the methylation level of imprinting genes and repeat sequences differed between MSCs and fibroblasts. In addition, we showed that use of transgenic porcine MSCs generated from transgene plasmid transfection as donor cells for SCNT can produce live transgenic cloned pigs. These results strongly suggest that porcine bone marrow MSCs are a desirable donor cell type for production of cloned pigs and genetically modified cloned pigs via SCNT. [ABSTRACT FROM AUTHOR]

Published

2013

22. Cloning and functional characterization of the pig ( Sus scrofa) organic anion transporting polypeptide 1a2.

Author

Yu, Yejin, Liu, Xiaoxiao, Zhang, Zheren, Xiao, Yunpeng, and Hong, Mei

Subjects

*ORGANIC anion transporters, *POLYPEPTIDES, *SWINE cloning, *CARRIER proteins, *HYPERINSULINISM

Abstract

1. Organic anion transporting polypeptides (OATPs) are a family of transporter proteins that have been extensively recognized as key determinants of absorption, distribution, metabolism and excretion of various drugs. Human OATP1A2 has been demonstrated to transport wide spectrum of endogenous and exogenous compounds. Study on OATP1A2 orthologues of other species, however, is still limited. 2. Here, we described the cloning and functional characterization of a member of the OATP/Oatp family member obtained from pig ( Sus scrofa) liver. Sequence analysis suggested that it has a high homology with human OATP1A2 and bovine Oatp1a2. Prototypic substrates estrone-3-sulfate (E-3-S) and taurocholic acid were transported by the protein. The transport of these two substrates is pH-dependent, with lower pH showing higher uptake function. Kinetic study showed the transport of these two substrates have a Km of 42.5 ± 12.1 and 33.1 ± 8.7 µM, respectively. Pig Slco1a2 has the highest expression level in the liver, and to a less extend in the brain and small intestine. 3. In conclusion, an OATP member was cloned from pig liver. Sequence analysis and phylogenic study revealed it as an orthologue of human OATP1A2. Its kinetic characteristic for prototypic substrates and organ distribution are similar with that of OATP1A2. [ABSTRACT FROM AUTHOR]

Published

2013

23. Factors influencing the efficiency of generating genetically engineered pigs by nuclear transfer: multi-factorial analysis of a large data set.

Author

Kurome, Mayuko, Geistlinger, Ludwig, Kessler, Barbara, Zakhartchenko, Valeri, Klymiuk, Nikolai, Wuensch, Annegret, Richter, Anne, Baehr, Andrea, Kraehe, Katrin, Burkhardt, Katinka, Flisikowski, Krzysztof, Flisikowska, Tatiana, Merkl, Claudia, Landmann, Martina, Durkovic, Marina, Tschukes, Alexander, Kraner, Simone, Schindelhauer, Dirk, Petri, Tobias, and Kind, Alexander

Subjects

*TRANSPLANTATION of cell nuclei, *SWINE cloning, *TRANSGENE expression, *GENE targeting, *XENOGRAFTS

Abstract

Background: Somatic cell nuclear transfer (SCNT) using genetically engineered donor cells is currently the most widely used strategy to generate tailored pig models for biomedical research. Although this approach facilitates a similar spectrum of genetic modifications as in rodent models, the outcome in terms of live cloned piglets is quite variable. In this study, we aimed at a comprehensive analysis of environmental and experimental factors that are substantially influencing the efficiency of generating genetically engineered pigs. Based on a considerably large data set from 274 SCNT experiments (in total 18,649 reconstructed embryos transferred into 193 recipients), performed over a period of three years, we assessed the relative contribution of season, type of genetic modification, donor cell source, number of cloning rounds, and pre-selection of cloned embryos for early development to the cloning efficiency. Results: 109 (56%) recipients became pregnant and 85 (78%) of them gave birth to offspring. Out of 318 cloned piglets, 243 (76%) were alive, but only 97 (40%) were clinically healthy and showed normal development. The proportion of stillborn piglets was 24% (75/318), and another 31% (100/318) of the cloned piglets died soon after birth. The overall cloning efficiency, defined as the number of offspring born per SCNT embryos transferred, including only recipients that delivered, was 3.95%. SCNT experiments performed during winter using fetal fibroblasts or kidney cells after additive gene transfer resulted in the highest number of live and healthy offspring, while two or more rounds of cloning and nuclear transfer experiments performed during summer decreased the number of healthy offspring. Conclusion: Although the effects of individual factors may be different between various laboratories, our results and analysis strategy will help to identify and optimize the factors, which are most critical to cloning success in programs aiming at the generation of genetically engineered pig models. [ABSTRACT FROM AUTHOR]

Published

2013

24. Treatment of porcine donor cells and reconstructed embryos with the antioxidant melatonin enhances cloning efficiency.

Author

Pang, Yun‐Wei, An, Lei, Wang, Peng, Yu, Yong, Yin, Qiu‐Dan, Wang, Xiao‐Hong, Xin‐Zhang,  , Qian‐Zhang,  , Yang, Mei‐Ling, Min‐Guo,  , Wu, Zhong‐Hong, and Tian, Jian‐Hui

Subjects

*MELATONIN, *THERAPEUTIC use of antioxidants, *SWINE embryos, *CELL culture, *SWINE cloning, *THERAPEUTICS

Abstract

This study was conducted to investigate the effect of melatonin during the culture of donor cells and cloned embryos on the in vitro developmental competence and quality of cloned porcine embryos. At concentrations of 10-6 m or 10-8 m, melatonin significantly enhanced the proliferation of porcine fetal fibroblasts (PFFs), and the blastocyst rate was significantly increased in the 10-10 m melatonin-treated donor cell group. Cloned embryo development was also improved in embryo culture medium that was supplemented with 10-9 m or 10-12 m melatonin. When both donor cells and cloned embryos were treated with melatonin, the cleavage rate and total cell number of blastocysts were not significantly affected; however, the blastocyst rate was increased significantly (20.0% versus 11.7%). TUNEL assays showed that combined melatonin treatment reduced the rate of apoptotic nuclei (3.6% versus 6.1%). Gene expression analysis of the apoptosis-related genes BAX, BCL2L1, and p53 showed that the expression of BCL2L1 was significantly elevated 2.7-fold relative to the control group, while the expression of BAX and p53 was significantly decreased by 3.7-fold and 23.2-fold, respectively. In addition, we detected the expression of two melatonin receptors (MT1 and MT2) in PFFs but not in porcine cloned embryos. We conclude that exogenous melatonin enhances the development of porcine cloned embryos and improves embryo quality by inhibiting p53-mediated apoptotic pathway. The proliferation of PFFs may be mediated by receptor binding, but the beneficial effects of melatonin on embryonic development may be receptor-independent, possibly through melatonin's ability to directly scavenge free radicals. [ABSTRACT FROM AUTHOR]

Published

2013

25. Changes in the gut microbiota of cloned and non-cloned control pigs during development of obesity: gut microbiota during development of obesity in cloned pigs.

Author

Pedersen, Rebecca, Andersen, Anders Daniel, Mølbak, Lars, Stagsted, Jan, and Boye, Mette

Subjects

*GUT microbiome, *OBESITY, *SWINE diseases, *SWINE cloning, *HIGH-calorie diet, *METABOLOMICS, *RESTRICTION fragment length polymorphisms

Abstract

Background: Obesity induced by a high-caloric diet has previously been associated with changes in the gut microbiota in mice and in humans. In this study, pigs were cloned to minimize genetic and biological variation among the animals with the aim of developing a controlled metabolomic model suitable for a diet-intervention study. Cloning of pigs may be an attractive way to reduce genetic influences when investigating the effect of diet and obesity on different physiological sites. The aim of this study was to assess and compare the changes in the composition of the gut microbiota of cloned vs. non-cloned pigs during development of obesity by a high-fat/ high-caloric diet. Furthermore, we investigated the association between diet-induced obesity and the relative abundance of the phyla Firmicutes and Bacteroidetes in the fecal-microbiota. The fecal microbiota from obese cloned (n = 5) and non-cloned control pigs (n= 6) was investigated biweekly over a period of 136 days, by terminal restriction fragment length polymorphism (T-RFLP) and quantitative real time PCR (qPCR). Results: A positive correlation was observed between body-weight at endpoint and percent body-fat in cloned (r=0.9, P<0.0001) and in non-cloned control pigs (r=0.9, P<0.0001). Shannon Weaver and principal component analysis (PCA) of the terminal restriction fragments (T-RFs) revealed no differences in the bacterial composition or variability of the fecal microbiota between the cloned pigs or between cloned and non-cloned control pigs. Body-weight correlated positively with the relative abundance of Firmicutes in both cloned (r=0.37; P<0.02) and non cloned-control pigs (r=0.45; P<0.006), and negatively with the abundance of Bacteroidetes in cloned pigs (r=-0.33, P<0.04), but not in the non-cloned control pigs. Conclusion: The cloned pigs did not have reduced inter-individual variation as compared to non-cloned pigs in regard to their gut microbiota in neither the obese nor the lean state. Diet-induced obesity was associated with an increase in the relative abundance of Firmicutes over time. Our results suggest that cloned pigs are not a more suitable animal model for gut microbiota-obesity related studies than non-cloned pigs. This study is the first to evaluate if cloned pigs provide a better animal model than conventional pigs in diet-intervention, obesity and gut microbiota research. [ABSTRACT FROM AUTHOR]

Published

2013

26. Blastocyst complementation generates exogenic pancreas in vivo in apancreatic cloned pigs.

Author

Matsunari, Hitomi, Nagashima, Hiroshi, Watanabe, Masahito, Umeyama, Kazuhiro, Nakano, Kazuaki, Nagaya, Masaki, Kobayashi, Toshihiro, Yamaguchi, Tomoyuki, Sumazaki, Ryo, Herzenberg, Leonard A., and Nakauchi, Hiromitsu

Subjects

*BLASTOCYST, *PANCREATIC regeneration, *SWINE cloning, *PLURIPOTENT stem cells, *SOMATIC cells, *LABORATORY swine

Abstract

In the field of regenerative medicine, one of the ultimate goals is to generate functioning organs from pluripotent cells, such as ES cells or induced pluripotent stem cells (PSCs). We have recently generated functional pancreas and kidney from PSCs in pancreatogenesis- or nephrogenesis-disabled mice, providing proof of principle for organogenesis from PSCs in an embryo unable to form a specific organ. Key when applying the principles of in vivo generation to human organs is compensation for an empty developmental niche in large nonrodent mammals. Here, we show that the blastocyst complementation system can be applied in the pig using somatic cell cloning technology. Transgenic approaches permitted generation of porcine somatic cell cloned embryos with an apancreatic phenotype. Complementation of these embryos with allogenic blastomeres then created functioning pancreata in the vacant niches. These results clearly indicate that a missing organ can be generated from exogenous cells when functionally normal pluripotent cells chimerize a cloned dysorganogenetic embryo. The feasibility of blastocyst complementation using cloned porcine embryos allows experimentation toward the in vivo generation of functional organs from xenogenic PSCs in large animals. [ABSTRACT FROM AUTHOR]

Published

2013

27. Molecular cloning and expression analyses of porcine MAP1LC3A in the granulosa cells of normal and miniature pig.

Author

Kim, Sang H., Hwang, Sue Y., Min, Kwan S., and Yoon, Jong T.

Subjects

*SWINE cloning, *MOLECULAR cloning, *APOPTOSIS, *CELL death, *IN situ hybridization, *IMMUNOHISTOCHEMISTRY

Abstract

Background: The members of the microtubule-associated protein 1 light chain (MAP1LC) family, especially those of the LC3 family (MAP1LC3A, B, C), are known to induce autophagy upon localization onto the autophagosomal membrane. In this regard, LC3 can be utilized as a marker for the formation of autophagosomes during the process of autophagy. The aims of this study are to clone porcine MAP1LC3A, and analyze the pattern of its expression in the ovarian tissues of normal and miniature pig ovary in an attempt to understand the distinct mode of apoptosis between two strains. Methods: Rapid amplification of cDNA ends (RACE) were used to obtain the 5′ and 3′ ends of the porcine MAP1LC3A full length cDNA. Reverse-transcriptase-PCR (RT-PCR), real-time PCR, and western blot analysis were performed to examine the expression of porcine MAP1LC3A. The localization of MAP1LC3A in the ovary was determined by In situ Hybridization and Immunohistochemical staining. Results: We cloned the full-length cDNA of porcine MAP1LC3A and identified an open reading frame of 980 bp encoding 121 amino acids. Based on its homology to known mammalian proteins (98%) this novel cDNA was designated as porcine MAP1LC3A and registered to the GenBank (Accession No. GU272221). We compared the expression of MAP1LC3A in the Graafian follicles of normal and miniature pigs by in situ hybridization at day 15 of the estrus cycle. While normal pigs showed a stronger expression of MAP1LC3A mRNA than miniature pigs in the theca cell area, the expression was lower in the granulosa cells. Immunofluorescence analysis of the MAP1LC3A fusion reporter protein showed the subcellular localization of porcine MAP1LC3A and ATG5 as a punctate pattern in the cytoplasm of porcine granulosa cells under stress conditions. In addition, the expressions of MAP1LC3A and ATG5 were higher in normal pigs than in miniature pigs both in the presence and absence of rapamycin. Conclusions: The newly cloned porcine MAP1LC3A provides a novel autophagosomal marker in both normal and miniature pig. We demonstrated that the expression of MAP1LC3A in graafian follicle is distinct in normal and miniature pig, which may explain the unique folliculogenesis of miniature pigs. [ABSTRACT FROM AUTHOR]

Published

2013

28. Piglets cloned from induced pluripotent stem cells.

Author

Fan, Nana, Chen, Jijun, Shang, Zhouchun, Dou, Hongwei, Ji, Guangzhen, Zou, Qingjian, Wu, Lu, He, Lixiazi, Wang, Fang, Liu, Kai, Liu, Na, Han, Jianyong, Zhou, Qi, Pan, Dengke, Yang, Dongshan, Zhao, Bentian, Ouyang, Zhen, Liu, Zhaoming, Zhao, Yu, and Lin, Lin

Subjects

SWINE cloning, INDUCED pluripotent stem cells, GENE silencing, FIBROBLASTS, TRANSPLANTATION of cell nuclei, TRANSCRIPTION factors

Abstract

The article focuses on experiments which demonstrate cloning of piglets from induced pluripotent stem cells (iPSCs). It is mentioned that two cell lines were induced from porcine bone marrow cells and porcine ear fibroblasts with a use of lentiviral vector. The experiments show that iPSCs from pigs can be used for nuclear transfer as donors by silencing of exogenous transcription factors by various methods.

Published

2013

29. Assessment of reproduction and growth performance of offspring derived from somatic cell cloned pigs.

Author

HU, Kui, KONG, Qingran, ZHAO, Zeping, LU, Xinyu, LIU, Biao, LI, Yutian, WANG, Hongbin, and LIU, Zhonghua

Subjects

*SOMATIC cells, *MAMMAL reproduction, *SWINE, *ANIMAL offspring sex ratio, *SWINE cloning, *SWINE growth, *PERFORMANCE evaluation

Abstract

ABSTRACT Since cloned pig was successfully produced, a new opportunity for porcine breeding industry to conserve genetic resources has been opened. However, there has been no report to investigate whether both somatic cell nuclear transfer (SCNT) pigs and their offspring have the characteristics of the donor breed. In this study, we compared the reproductive and growth performance of American Large White boars cloned by SCNT with the donor boar, and analyzed the test parameters, including semen quality, re-service rate, rate of parturition, and average daily gain. The results showed that these cloned boars and the donor boar had no significant differences in the tests ( P > 0.05) and the growth performance of their offspring was similar to the naturally bred American Large White pigs. In summary, the reproductive and growth performance of cloned pigs are similar to the donor pig and within the normal range. This suggests that pigs cloned by SCNT have the potential to be used in reproduction and breeding. [ABSTRACT FROM AUTHOR]

Published

2012

30. Production of cloned pigs expressing human thrombomodulin in endothelial cells.

Author

Yazaki, Satoko, Iwamoto, Masaki, Onishi, Akira, Miwa, Yuko, Hashimoto, Michiko, Oishi, Takatsugu, Suzuki, Shunichi, Fuchimoto, Dai-ichiro, Sembon, Shoichiro, Furusawa, Tadashi, Liu, DaGe, Nagasaka, Takaharu, Kuzuya, Takafumi, Ogawa, Haruko, Yamamoto, Koji, Iwasaki, Kenta, Haneda, Masataka, Maruyama, Shoichi, and Kobayashi, Takaaki

Subjects

*SWINE cloning, *THROMBOMODULIN, *XENOGRAFTS, *PROTEIN C, *AMMONIUM perchlorate, *TRANSGENES, *CYTOPROTECTION

Abstract

Yazaki S, Iwamoto M, Onishi A, Miwa Y, Hashimoto M, Oishi T, Suzuki S, Fuchimoto D-I, Sembon S, Furusawa T, Liu DG, Nagasaka T, Kuzuya T, Ogawa H, Yamamoto K, Iwasaki K, Haneda M, Maruyama S, Kobayashi T. Production of cloned pigs expressing human thrombomodulin in endothelial cells. Xenotransplantation 2012; 19: 82-91. © 2012 John Wiley & Sons A/S. Abstract: For long-term xenograft survival, coagulation control is one of the remaining critical issues. Our attention has been directed toward human thrombomodulin (hTM), because it is expected to exhibit the following beneficial effects on coagulation control and cytoprotection: (i) to solve the problem of molecular incompatibility in protein C activation; (ii) to exert a role as a physiological regulator, only when thrombin is formed; (iii) to suppress direct prothrombinase activity; and (iv) to have anti-inflammatory properties. hTM gene was transfected into pig (Landrace/Yorkshire) fibroblasts using pCAGGS expression vector and pPGK-puro vector. After puromycin selection, only fibroblasts expressing a high level of hTM were collected by cell sorting and then applied to nuclear transfer. Following electroactivation and subsequent culture, a total of 1547 cleaved embryos were transferred to seven surrogate mother pigs. Two healthy cloned piglets expressing hTM were born, successfully grew to maturity and produced normal progeny. Immunohistochemical staining of organs from F1 generation pigs demonstrated hTM expression in endothelial cells as well as parenchymal cells. High expression was observed particularly in endothelial cells of kidney and liver. Aortic endothelial cells from cloned pigs were found to express hTM levels similar to human umbilical vein endothelial cells (HUVEC) and to make it possible to convert protein C into activated protein C. The blockade of human endothelial cell protein C receptor (hEPCR) significantly reduced APC production in HUVEC, but not in hTM-PAEC. Although no bleeding tendency was observed in hTM-cloned pigs, activated partial thromboplastin time (APTT) was slightly prolonged and soluble hTM was detected in pig plasma. hTM was expressed in platelets and mononuclear cells, but not in RBC. Cloned pigs expressing hTM in endothelial cells at a comparable level to HUVEC were produced. As complete suppression of antigen-antibody reaction in the graft is essential for accurate assessment of transgene related to coagulation control, production of genetically engineered pigs expressing hTM and complement regulatory protein based on galactosyltransferase knockout is desired. [ABSTRACT FROM AUTHOR]

Published

2012

31. Comparison of Gene Expression and Genome-Wide DNA Methylation Profiling between Phenotypically Normal Cloned Pigs and Conventionally Bred Controls.

Author

Fei Gao, Yonglun Luo, Shengting Li, Jian Li, Lin Lin, Nielsen, Anders Lade, Sørensen, Charlotte Brandt, Vajta, Gábor, Jun Wang, Xiuqing Zhang, Yutao Du, Huanming Yang, and Bolund, Lars

Subjects

*SWINE cloning, *GENE expression, *DNA methylation, *CRYOBIOLOGY, *CLONING, *FERTILIZATION in vitro

Abstract

Animal breeding via Somatic Cell Nuclear Transfer (SCNT) has enormous potential in agriculture and biomedicine. However, concerns about whether SCNT animals are as healthy or epigenetically normal as conventionally bred ones are raised as the efficiency of cloning by SCNT is much lower than natural breeding or In-vitro fertilization (IVF). Thus, we have conducted a genome-wide gene expression and DNA methylation profiling between phenotypically normal cloned pigs and control pigs in two tissues (muscle and liver), using Affymetrix Porcine expression array as well as modified methylation-specific digital karyotyping (MMSDK) and Solexa sequencing technology. Typical tissue-specific differences with respect to both gene expression and DNA methylation were observed in muscle and liver from cloned as well as control pigs. Gene expression profiles were highly similar between cloned pigs and controls, though a small set of genes showed altered expression. Cloned pigs presented a more different pattern of DNA methylation in unique sequences in both tissues. Especially a small set of genomic sites had different DNA methylation status with a trend towards slightly increased methylation levels in cloned pigs. Molecular network analysis of the genes that contained such differential methylation loci revealed a significant network related to tissue development. In conclusion, our study showed that phenotypically normal cloned pigs were highly similar with normal breeding pigs in their gene expression, but moderate alteration in DNA methylation aspects still exists, especially in certain unique genomic regions. [ABSTRACT FROM AUTHOR]

Published

2011

32. Altered Gene Expression Profiles in the Brain, Kidney, and Lung of One-Month-Old Cloned Pigs.

Author

Joonghoon Park, Liangxue Lai, Samuel, Melissa, Wax, David, Bruno, Richard S., French, Richard, Prather, Randall S., Xiangzhong Yang, and Tian, X. Cindy

Subjects

*HUMAN embryonic stem cells, *TRANSPLANTATION of cell nuclei, *SWINE cloning, *GENE expression, *OLIGONUCLEOTIDE arrays, *FIBROBLASTS

Abstract

Although numerous mammalian species have been successfully cloned by somatic cell nuclear transfer (SCNT), little is known about gene expression of cloned pigs by SCNT. In the present study, expression profiles of 1- month-old cloned pigs generated from fetal fibroblasts (n=5) were compared to those of age-matched controls (n=5) using a 13K oligonucleotide microarray. The brain, kidney, and lung were chosen for microarray analysis to represent tissues from endoderm, mesoderm, and ectoderm in origin. In clones, 179 and 154 genes were differentially expressed in the kidney and the lung, respectively (fold change >2, p<0.05, false discovery rate=0.05), whereas only seven genes were differentially expressed in the brain of clones. Functional analysis of the differentially expressed genes revealed that they were enriched in diabetic nephropathy in the kidney, delayed alveologenesis as well as downregulated MAPK signaling pathways in the lung, which was accompanied with collapsed alveoli in the histological examination of the lung. To evaluate whether the gene expression anomalies are associated with changes in DNA methylation, global concentration of the methylated cytosine was measured in lung DNA by HPLC. Clones were significantly hypermethylated (5.72%) compared to the controls (4.13%). Bisulfite-pyrosequencing analyses of the promoter regions of differentially expressed genes, MYC and Period 1 (PER1), however, did not show any differences in the degree of DNA methylation between controls and clones. Together, these findings demonstrate that cloned pigs have altered gene expression that may potentially cause organ dysfunction. [ABSTRACT FROM AUTHOR]

Published

2011

33. Methylation differences of the neuronatin gene promoter region in liver between normal and cloned pigs.

Author

Gu, Ting, Su, Xi, Zhao, Shuhong, and Li, Changchun

Subjects

*PHENOTYPES, *SWINE cloning, *METHYLATION, *GENE expression in mammals, *CPG nucleotides, *GENOMIC imprinting

Abstract

Abnormal phenotypes in cloned pigs can be partly due to changes in epigenetic modifications such as methylation levels of promoter CpG islands. Neuronatin is an imprinted gene, conserved in human, pig, cattle and mouse, which is expressed exclusively from the paternal allele. Three CpG islands located in the promoter region of the porcine neuronatin gene have the potential to regulate the gene expression by cytosine methylation. To illustrate whether neuronatin was differentially expressed among nuclear transfer macroglossia-positive and nuclear transfer macroglossia-negative pigs and in vitro-fertilized pigs, we detected its expression level by qRT-PCR and further quantified methylation levels by pyrosequencing DNA from the liver. The results showed that neuronatin was expressed at a significantly higher level in livers of nuclear transfer macroglossia-positive pigs compared with normal cloned and in vitro-fertilized pigs. Livers of nuclear transfer macroglossia-positive pigs also had a significantly lower methylation level at CpG island 2 and CpG island 3 in the promoter region. [ABSTRACT FROM AUTHOR]

Published

2014

34. Oral Communication 9: Tissue Engineering.

Subjects

*TISSUE engineering, *XENOTRANSPLANTATION, *EMBRYONIC stem cells, *PANCREAS transplantation, *SWINE cloning, *MEDICAL protocols

Abstract

The article presents abstracts on tissue engineering which include the engraftment of monkey embryonic stem cells in sheep, the generation of exogenic pancreas in apancreatic cloned pigs and the development of combined anticalcification protocols.

Published

2013

35. Parasites, Probiotics, and Piglets: A Novel Approach to IBD.

Author

Devaney, Eileen

Subjects

*IMMUNOLOGICAL adjuvants, *ACANTHOCHEILONEMA viteae, *ESCHERICHIA coli, *PORK industry, *SWINE cloning

Abstract

The author discusses on a research study where AvCys potent immunomodulator from Acanthocheilonem viteae was cloned into Escherichia coli Nissle 1917 (EcN). She mentions that the study will be of interest to the pig industry in which post-weaning syndrome can cause serious welfare and economic issues. She states that additional work is needed to affirm the immunological mechanisms underlying pathology mitigation in animals fed the transgenic probiotic.

Published

2014

36. EFSA Update on Cloning in Relation to Food Production.

Author

Verzijden, Karin

Subjects

*CLONING, *SOMATIC cells, *CATTLE cloning, *SWINE cloning, *FOOD production, *BIODIVERSITY, *GOVERNMENT policy

Abstract

The article focuses on the 2012 Statement from European Food Safety Authority (EFSA) which covers the relation of cloning in food production. It states that the statement, thet specifically address intraspecies Somatic Cell Nucleus Transfer (SCNT) cloning on pigs and cattle, asserts that appropriate use of cloning would not adversely affect the genetic diversity. It says that EFSA reiterates that cloned farmed animals could not be considered as threats for genetic diversity or biodiversity.

Published

2012

37. Valproic acid improved in vitro development of pig cloning embryos but did not improve survival of cloned pigs to adulthood

Author

Kang, Jin-Dan, Li, Suo, Lu, Yue, Wang, Wei, Liang, Shuang, Liu, Xi, Jin, Jun-Xue, Hong, Yu, Yan, Chang-Guo, and Yin, Xi-Jun

Subjects

*VALPROIC acid, *IN vitro studies, *EMBRYOLOGY, *SWINE cloning, *TRANSPLANTATION of cell nuclei, *BIRTH weight, *LABORATORY swine

Abstract

Abstract: The objective was to examine the effects of valproic acid (VPA), a histone deacetylase inhibitor, on in vitro and in vivo development of Wuzhishan miniature pig somatic cell nuclear transfer (SCNT) embryos. Experiment 1 compared in vitro developmental competence of nuclear transfer embryos treated with various concentrations of VPA for 24 h. Embryos treated with 2 mM VPA for 24 h had a greater rate of blastocyst formation compared with control or embryos treated with 4 or 8 mM VPA (21.5% vs. 10.5%, 12.6%, and 17.2%, P < 0.05). Experiment 2 examined the in vitro developmental competence of nuclear transfer embryos treated with 2 mM VPA for various intervals after chemical activation. Embryos treated for 24 h had higher rates of blastocyst formation than the control or those treated for 4 or 48 h (20.7% vs. 9.2%, 12.1%, and 9.1%, P < 0.05). In Experiment 3, an average of 207 (range, 192–216) nuclear transfer embryos from the VPA-treated group were transferred to surrogate mothers, resulting in three pregnancies. Two of the surrogates delivered a total of 11 live piglets. However, for unknown reasons, nine of 11 piglets in the VPA-treated group died within 1 to 5 d after birth. Untreated control embryos (average, 205; range, 179–225) transferred to four surrogate mothers resulted in three pregnancies, two of which delivered a total of 12 live offspring, although four of 12 piglets in the VPA-untreated group died (cause unknown) within 1 to 3 d, whereas eight of the 12 piglets in the VPA-untreated group survived more than 3 or 4 mo. The average birth weight of the two litters from the VPA-treated group tended (P < 0.05) to be lower than that from the control groups (551.6 g vs. 675.2 g). In conclusion, VPA treatment increased the blastocyst formation rate of SCNT porcine embryos; both VPA-treated and the untreated clones developed to term, but offspring from VPA-treated embryos had a lower survival to adulthood than those from control embryos (18.2% vs. 67.0%; P < 0.05). [Copyright &y& Elsevier]

Published

2013

38. 40 PIG CLONING AND GENE EXPRESSION PATTERNS IN MINIPIG ADIPOSE TISSUE-DERIVED MESENCHYMAL STEM CELLS.

Author

Kim, M. J., Oh, H. J., Park, J. E., Kim, G. A., Park, E. J., Choi, J., Moon, J. H., Rhee, S. H., Kim, T., and Lee, B. C.

Subjects

*SWINE cloning, *GENE expression

Abstract

An abstract of the study "Pig Cloning and Gene Expression Patterns in Minipig Adipose Tissue-Derived Mesenchymal Stem Cells," by M. J. Kim et al is presented.

Published

2012

39. Transplant Organs from Gene-Edited Pigs; Milestone Achieved: Cloned pigs are a big step toward alleviating the shortage transplant organs.

Author

Bailey, Ronald

Subjects

GENOME editing, SWINE cloning

Published

2017