Production of α1,3-Galactosyltransferase-Knockout Cloned Pigs Expressing Human α1,2-Fucosylosyltransferase1

Ramsoondar, Jagdeece; Macháty, Zoltán; Costa, Cristina; Williams, Barry L.; Fodor, William L.; Bondioli, K. R.

doi:10.1095/biolreprod.102.014647

Cited by 147 publications

(123 citation statements)

References 24 publications

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“…Pigs have been regarded as promising donors for xenotransplantation and attempts have been made to genetically modify the porcine genome through somatic cell NT in order to make the porcine organs immunologically more compatible to human Kolber-Simonds et al 2004;Lai et al 2002;Ramsoondar et al 2003). The production of pigs through NT has been particularly difficult, probably due to the inefficiencies of in vitro oocyte maturation and embryo culture, and the necessity for at least four good-quality embryos to establish a pregnancy.…”

Section: Introductionmentioning

confidence: 99%

Expression of X‐linked genes in deceased neonates and surviving cloned female piglets

Jiang

Lai

Samuel

et al. 2007

Molecular Reproduction Devel

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Animal cloning through somatic cell nuclear transfer is very inefficient, probably due to insufficient reprogramming of the donor nuclei, which in turn would cause the dysregulation of gene expression. X-Chromosome inactivation (XCI) is a multi-step epigenetic process utilized by mammals to achieve dosage compensation in females. Our aim was to determine if any dysregulation of X-linked genes, which would be indicative of unfaithful reprogramming of donor nuclei, was present in cloned pigs. Real time reverse transcription polymerase chain reaction (RT-PCR) was performed to quantify the transcript levels of five X-linked genes, XIST, TSIX, HPRT1, G6PD, ARAF1 and one autosomal gene, COL4A1 in major organs of neonatal deceased and surviving female cloned pigs and age-matched control pigs from conventional breeding. Aberrant expression level of these genes was prevalent in the neonatal deceased clones, while it was only moderate in cloned pigs that survived after birth. These results suggest a correlation between the viability of the clones and the normality of their gene expression and provide a possible explanation for the death of a large portion of cloned animals around birth.

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Section: Introductionmentioning

confidence: 99%

Expression of X‐linked genes in deceased neonates and surviving cloned female piglets

Jiang

Lai

Samuel

et al. 2007

Molecular Reproduction Devel

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“…Recent studies that disrupted genes in somatic cells for nuclear transfer have used positive selection only using Neo r gene (McCreath et al, 2000;Denning et al, 2001;Lai et al, 2002;Ramsoondar et al, 2003). Large variations in the number of targeted colonies versus the number of random-integrated colonies (1/20 to 1/500) for gene targeting in somatic cells have been reported (Denning et al, 2001;Dai et al, 2002;Ramsoondar et al, 2003).…”

Section: Discussionmentioning

confidence: 99%

“…Nuclear transfer of somatic cells in pigs is the most promising procedure to achieve knockout of α-1,3-galactosyl transferase (13-GT) gene for pigto-human xenotransplatation (Betthanser et al, 2000;Onishi, et al, 2000;Polejaeva, et al, 2000;Harrison et al, 2002). Production of viable pig and sheep with targeted insertion at several gene loci following nuclear transfer with gene-targeted cells has been reported (McCreath et al, 2000;Denning et al, 2001;Dai et al, 2002;Lai et al, 2002;Phelps et al, 2003;Ramsoondar et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

Targeting efficiency of a-1,3-galactosyl transferase gene in pig fetal fibroblast cells

Jin

Lee²,

Choi³

et al. 2003

Exp Mol Med

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“…Somatic cell nuclear transfer was used to produce a total of 90 live piglets from in vitro cultured: foetal fibroblast cells (Onishi et al, 2000;Park et al, 2001c;Boquest et al, 2002;Dai et al, 2002;De Sousa et al, 2002;Lai et al, 2002a,b;Walker et al, 2002;Hyun et al, 2003;Ramsoondar et al, 2003;Yin et al, 2003), skin fibroblasts (Bondioli et al, 2001), ear-derived fibroblasts (Park et al, 2002;Lee et al, 2003b), mural granulosa cells (Polejaeva et al, 2000), cells of an indefinite phenotype isolated from foetuses and their genital ridges (Betthauser et al, 2000), and heart cells (probably cardiomyocytes; Yin et al, 2002). In the experiments aimed at determining the in vitro developmental abilities of reconstructed porcine embryos to compact morula and blastocyst stages, foetal fibroblasts (Tao et al, 1999a,b;Koo et al, 2000;Uhm et al, 2000;Verma et al, 2000;Kuhholzer et al, 2000Kuhholzer et al, , 2001Lai et al, 2001;Park et al, 2001b) or cumulus/ mural granulosa cells (Cheong et al, 2000;Uhm et al, 2000;Park et al, 2001a;Martinez Diaz et al, 2002;Nagashima et al, 2002;Lee et al, 2003b;Samiec et al, 2003a,b) as well as ear skin fibroblasts of adult animals (Miyoshi et al, 2001;Roh and Hwang, 2002) were most often used as a source of donor nuclei.…”

Section: Cloning Competence Of Various Somatic Cell Typesmentioning

confidence: 99%

“…In the first system cell nuclei at G1 or G0 stage are introduced into enucleated, nonactivated Met II oocytes and simultaneously obtained clonal nuclear-cytoplasmic hybrids are activated (Uhm et al, 2000;Verma et al, 2000;Kuhholzer et al, 2001;Park et al, 2001b;Dai et al, 2002;Lai et al, 2002a,b;Hyun et al, 2003). In the second system cell nuclei at G1, G1/G0 or G2/M stages are introduced into Met II ooplasts, which are activated 30 minutes to several hours (3-4 hours at the most) after nuclear transfer (Betthauser et al, 2000;Kuhholzer et al, 2000;Onishi et al, 2000;Bondioli et al, 2001;Lai et al, 2001;Park et al, 2001a;Boquest et al, 2002;De Sousa et al, 2002;Hyun et al, 2003;Lee et al, 2003b;Ramsoondar et al, 2003;Samiec et al, 2003a,b). Microsurgical transfer of somatic nuclei can be an alternative method for clonal nuclear-cytoplasmic hybrid reconstruction (Tao et al, 1999;Kuhholzer et al, 2000;Onishi et al, 2000;Uhm et al, 2000;Park et al, 2001a;Nagashima et al, 2002;Samiec et al, 2003a,b) prior to cell fusion induced in the electric field.…”

Section: Reconstruction Techniques Of Enucleated Oocytesmentioning

confidence: 99%

Development of pig cloning studies: past, present and future

Samiec¹

2004

J. Anim. Feed Sci.

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The birth of the first nuclear transfer-derived cloned piglet resulted from the transfer of a nucleus from a 4-cell stage embryo to an enucleated oocyte. Although biotechnological procedures in swine have recently undergone tremendous progress, the efficiency of pig somatic cloning is still lower than in other species of farm animals and, when expressed as a proportion of reconstructed oocytes, it does not exceed an average of 5 to 10% blastocysts and 1.5% born piglets. The basic prerequisite for practical application of this method is to improve efficiency. This requires further detailed studies. Development of pig somatic cell cloning was inspired not only by the necessity for quick improvement of the efficiency of the nuclear transfer technique in this species, but above all by its possible practical application for multiplication of transgenic piglets, for use in transplantation medicine and immunology, also pharmacy and animal breeding. A deficit of organs for human allotransplantation became a stimulus to the search for new, alternative sources of grafts. Therefore, a particularly attractive aspect of pig somatic cloning is the possibility of generating large numbers of transgenic pig organs for xenotransplantation. Compatibility with the human ones in size, anatomy, and physiology makes this an attractive proposition.

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Production of α1,3-Galactosyltransferase-Knockout Cloned Pigs Expressing Human α1,2-Fucosylosyltransferase1

Cited by 147 publications

References 24 publications

Expression of X‐linked genes in deceased neonates and surviving cloned female piglets

Expression of X‐linked genes in deceased neonates and surviving cloned female piglets

Targeting efficiency of a-1,3-galactosyl transferase gene in pig fetal fibroblast cells

Development of pig cloning studies: past, present and future

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