S.L. Terlouw scite author profile

Ethical and moral issues rule out the use of human induced pluripotent stem cells (iPSCs) in chimera studies that would determine the full extent of their reprogrammed state, instead relying on less rigorous assays such as teratoma formation and differentiated cell types. To date, only mouse iPSC lines are known to be truly pluripotent. However, initial mouse iPSC lines failed to form chimeric offspring, but did generate teratomas and differentiated embryoid bodies, and thus these specific iPSC lines were not completely reprogrammed or truly pluripotent. Therefore, there is a need to address whether the reprogramming factors and process used eventually to generate chimeric mice are universal and sufficient to generate reprogrammed iPSC that contribute to chimeric offspring in additional species. Here we show that porcine mesenchymal stem cells transduced with 6 human reprogramming factors (POU5F1, SOX2, NANOG, KLF4, LIN28, and C-MYC) injected into preimplantation-stage embryos contributed to multiple tissue types spanning all 3 germ layers in 8 of 10 fetuses. The chimerism rate was high, 85.3% or 29 of 34 live offspring were chimeras based on skin and tail biopsies harvested from 2- to 5-day-old pigs. The creation of pluripotent porcine iPSCs capable of generating chimeric offspring introduces numerous opportunities to study the facets significantly affecting cell therapies, genetic engineering, and other aspects of stem cell and developmental biology.

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Transgenic Expression of Human CD47 Markedly Increases Engraftment in a Murine Model of Pig-to-Human Hematopoietic Cell Transplantation

Tena

Kurtz

Leonard

et al. 2014

American Journal of Transplantation

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Mixed chimerism approaches for induction of tolerance of solid organ transplants have been applied successfully in animal models and in the clinic. However, in xenogeneic models (pig-to-primate), host macrophages participate in the rapid clearance of porcine hematopoietic progenitor cells, hindering the ability to achieve mixed chimerism. CD47 is a cell-surface molecule that interacts in a species-specific manner with SIRPα receptors on macrophages to inhibit phagocytosis and expression of human CD47 on porcine cells has been shown to inhibit phagocytosis by primate macrophages. We report here the generation of human CD47 (hCD47) transgenic GalT-KO miniature swine that express hCD47 in all blood cell lineages. The effect of hCD47 expression on xenogeneic hematopoietic engraftment was tested in an in vivo mouse model of human hematopoietic cell engraftment. High-level porcine chimerism was observed in the bone marrow of hCD47 progenitor cell recipients and smaller but readily measurable chimerism levels were observed in the peripheral blood of these recipients. In contrast, transplantation of WT progenitor cells resulted in little or no bone marrow engraftment and no detectable peripheral chimerism. These results demonstrate a substantial protective effect of hCD47 expression on engraftment and persistence of porcine cells in this model, presumably by modulation of macrophage phagocytosis.

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Developmental ability of porcine oocytes matured and fertilized in vitro

et al. 1994

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In vitro development of nuclear transplant pig embryos

Terlouw¹,

Prather²,

Day³

1992

Theriogenology

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Effects of electrical stimulation before or after in vitro fertilization on sperm penetration and pronuclear formation of pig oocytes

Funahashi

Stumpf

Terlouw

et al. 1993

Molecular Reproduction Devel

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The effects of exposure of pig oocytes to an electrical pulse-on sperm penetration and pronuclear formation were determined before or after in vitro fertilization (IVF). After in vitro maturation (IVM) or after collection from oviducts of unmated gilts, pig oocytes either were not exposed or were exposed to an electrical pulse (a 10 sec pulse at 4.0 Vmm-1 AC followed by a 30 microseconds pulse at 120 V mm-1 DC), followed 30 min later by IVF. The incidence of male pronuclear formation of both IVM and in vivo-matured oocytes at 12 hr after insemination was decreased from 59% and 100%, respectively, to 2% and 36%, respectively, by the electrical pulse, but the penetration rates (88-100%) and polyspermic rates (79-100%) were not affected by exposure to an electrical pulse. Similarly, when pig IVM oocytes were exposed to an electrical pulse at 6 hr after insemination, electrical activation did not decrease penetration rates (93% vs. 90%), polyspermic rates (83% vs. 91%), or number of spermatozoa in penetrated oocytes (4.0 +/- 0.5 vs. 4.6 +/- 0.5) but did decrease the rate of male pronuclear formation from 58% to 18%. When oocytes were examined at 6 hr after insemination, 75% of them had been penetrated and resumed meiotic progression, but all sperm heads in penetrated oocytes were fully condensed or only partially decondensed. The percentage of penetrated eggs with multiple female pronuclei was increased when oocytes were exposed to an electrical pulse in all experimental series.(ABSTRACT TRUNCATED AT 250 WORDS)

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Diacylglycerol-enhanced electrical activation of porcine oocytes matured in vitro

et al. 1993

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Comparison of AutoMate® and the gloved-hand method for boar semen collection

Terlouw

Simmet²,

Schlimgen

et al. 2008

Theriogenology

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Miniature Swine Expressing Human CD47 to Enhance Bone Marrow Engraftment in Non-Human Primates

Tena¹,

Germana²,

Turcotte³

et al. 2012

Transplantation Journal

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S.L. Terlouw

Porcine Induced Pluripotent Stem Cells Produce Chimeric Offspring

Transgenic Expression of Human CD47 Markedly Increases Engraftment in a Murine Model of Pig-to-Human Hematopoietic Cell Transplantation

Developmental ability of porcine oocytes matured and fertilized in vitro

In vitro development of nuclear transplant pig embryos

Effects of electrical stimulation before or after in vitro fertilization on sperm penetration and pronuclear formation of pig oocytes

Diacylglycerol-enhanced electrical activation of porcine oocytes matured in vitro

Comparison of AutoMate® and the gloved-hand method for boar semen collection

Miniature Swine Expressing Human CD47 to Enhance Bone Marrow Engraftment in Non-Human Primates

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