Journal ArticleDOI
Derivation of pluripotent epiblast stem cells from mammalian embryos
I. Gabrielle M. Brons,Lucy E. Smithers,Matthew Trotter,Peter J. Rugg-Gunn,Bowen Sun,Susana M. Chuva de Sousa Lopes,Sarah K. Howlett,Amanda Clarkson,Lars Ährlund-Richter,Roger A. Pedersen,Ludovic Vallier +10 more
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TLDR
It is shown that pluripotent stem cells can be derived from the late epiblast layer of post-implantation mouse and rat embryos using chemically defined, activin-containing culture medium that is sufficient for long-term maintenance of human embryonic stem cells.Abstract:
Although the first mouse embryonic stem (ES) cell lines were derived 25 years ago using feeder-layer-based blastocyst cultures, subsequent efforts to extend the approach to other mammals, including both laboratory and domestic species, have been relatively unsuccessful. The most notable exceptions were the derivation of non-human primate ES cell lines followed shortly thereafter by their derivation of human ES cells. Despite the apparent common origin and the similar pluripotency of mouse and human embryonic stem cells, recent studies have revealed that they use different signalling pathways to maintain their pluripotent status. Mouse ES cells depend on leukaemia inhibitory factor and bone morphogenetic protein, whereas their human counterparts rely on activin (INHBA)/nodal (NODAL) and fibroblast growth factor (FGF). Here we show that pluripotent stem cells can be derived from the late epiblast layer of post-implantation mouse and rat embryos using chemically defined, activin-containing culture medium that is sufficient for long-term maintenance of human embryonic stem cells. Our results demonstrate that activin/Nodal signalling has an evolutionarily conserved role in the derivation and the maintenance of pluripotency in these novel stem cells. Epiblast stem cells provide a valuable experimental system for determining whether distinctions between mouse and human embryonic stem cells reflect species differences or diverse temporal origins.read more
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Systematic Identification of Culture Conditions for Induction and Maintenance of Naive Human Pluripotency
Thorold W. Theunissen,Benjamin E. Powell,Haoyi Wang,Maya Mitalipova,Dina A. Faddah,Jessica Reddy,Zi Peng Fan,Dorothea Maetzel,Kibibi Ganz,Linyu Shi,Tenzin Lungjangwa,Sumeth Imsoonthornruksa,Yonatan Stelzer,Sudharshan Rangarajan,Ana C. D’Alessio,Jianming Zhang,Qing Gao,Meelad M. Dawlaty,Richard A. Young,Nathanael S. Gray,Rudolf Jaenisch +20 more
TL;DR: Comparison with previously reported naive human ESCs indicates that the conditions captured in this study capture a distinct pluripotent state in humans that closely resembles that of mouse ESCs.
Journal ArticleDOI
Identification and characterization of subpopulations in undifferentiated ES cell culture.
TL;DR: In this paper, the authors established knock-in ES cell lines in which genes for fluorescent proteins were inserted into the Rex1 and Oct3/4 gene loci to visualize the expression of these genes.
Journal ArticleDOI
Directed transdifferentiation of mouse mesoderm to heart tissue by defined factors.
TL;DR: It is shown that two cardiac transcription factors, Gata4 and Tbx5, and a cardiac-specific subunit of BAF chromatin-remodelling complexes, Baf60c, can direct ectopic differentiation of mouse mesoderm into beating cardiomyocytes, including the normally non-cardiogenic posterior Mesoderm and the extraembryonic mesod Germ of the amnion.
Journal ArticleDOI
Generation of functional hepatocytes from human embryonic stem cells under chemically defined conditions that recapitulate liver development
Thomas Touboul,Nicholas R.F. Hannan,Sébastien Corbineau,Amelie Martinez,Clémence Martinet,Sophie Branchereau,Sylvie Mainot,Helene Strick-Marchand,Roger A. Pedersen,James P. Di Santo,Anne Weber,Ludovic Vallier +11 more
TL;DR: A robust and efficient method to differentiate pluripotent stem cells into hepatic cells, which exhibit characteristics of human hepatocytes are reported, which should facilitate the development of clinical grade hepatocytes for transplantation and for research on drug discovery.
Journal ArticleDOI
Inhibition of glycogen synthase kinase-3 alleviates Tcf3 repression of the pluripotency network and increases embryonic stem cell resistance to differentiation
Jason Wray,T. Kalkan,Sandra Gómez-López,Sandra Gómez-López,Dominik Eckardt,Andrew Simon Cook,Rolf Kemler,Austin Smith +7 more
TL;DR: It is demonstrated that β-catenin is not necessary for embryonic stem cell identity or expansion, but its absence eliminates the self-renewal response to Gsk3 inhibition, which stabilizes the embryonic stem Cell state primarily by reducing repressive influence on the core pluripotency network.
References
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Journal ArticleDOI
Embryonic Stem Cell Lines Derived from Human Blastocysts
James A. Thomson,Joseph Itskovitz-Eldor,Sander S. Shapiro,Michelle A. Waknitz,Swiergiel Jennifer J,Vivienne S. Marshall,Jeffrey M. Jones +6 more
TL;DR: Human blastocyst-derived, pluripotent cell lines are described that have normal karyotypes, express high levels of telomerase activity, and express cell surface markers that characterize primate embryonic stem cells but do not characterize other early lineages.
Journal ArticleDOI
Establishment in culture of pluripotential cells from mouse embryos
TL;DR: The establishment in tissue culture of pluripotent cell lines which have been isolated directly from in vitro cultures of mouse blastocysts are reported, able to differentiate either in vitro or after innoculation into a mouse as a tumour in vivo.
Journal ArticleDOI
Isolation of a pluripotent cell line from early mouse embryos cultured in medium conditioned by teratocarcinoma stem cells
TL;DR: In this article, the authors described the establishment directly from normal preimplantation mouse embryos of a cell line that forms teratocarcinomas when injected into mice and demonstrated the pluripotency of these embryonic stem cells by the observation that subclonal cultures, derived from isolated single cells, can differentiate into a wide variety of cell types.
Journal ArticleDOI
Core transcriptional regulatory circuitry in human embryonic stem cells.
Laurie A. Boyer,Tong Ihn Lee,Megan F. Cole,Sarah E. Johnstone,Stuart S. Levine,Jacob P. Zucker,Matthew G. Guenther,Roshan M. Kumar,Heather L. Murray,Richard G. Jenner,David K. Gifford,David K. Gifford,David K. Gifford,Douglas A. Melton,Douglas A. Melton,Rudolf Jaenisch,Richard A. Young,Richard A. Young +17 more
TL;DR: Insight is provided into the transcriptional regulation of stem cells and how OCT4, SOX2, and NANOG contribute to pluripotency and self-renewal and how they collaborate to form regulatory circuitry consisting of autoregulatory and feedforward loops.
Journal ArticleDOI
Quantitative expression of Oct-3/4 defines differentiation, dedifferentiation or self-renewal of ES cells.
TL;DR: A role is established for Oct-3/4 as a master regulator of pluripotency that controls lineage commitment and the sophistication of critical transcriptional regulators is illustrated and the consequent importance of quantitative analyses are illustrated.