. 2014 Dec 11;516(7530):192-7.

doi: 10.1038/nature14047.

Divergent reprogramming routes lead to alternative stem-cell states

Peter D Tonge¹, Andrew J Corso², Claudio Monetti¹, Samer M I Hussein¹, Mira C Puri³, Iacovos P Michael⁴, Mira Li¹, Dong-Sung Lee⁵, Jessica C Mar⁶, Nicole Cloonan⁷, David L Wood⁷, Maely E Gauthier⁷, Othmar Korn⁸, Jennifer L Clancy⁹, Thomas Preiss¹⁰, Sean M Grimmond⁷, Jong-Yeon Shin¹¹, Jeong-Sun Seo¹², Christine A Wells⁸, Ian M Rogers¹³, Andras Nagy¹⁴

Affiliations

¹ Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada.
² 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Institute of Medical Science, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
³ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Department of Medical Biophysics, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
⁴ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Department of Molecular Genetics, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
⁵ 1] Genomic Medicine Institute, Medical Research Center, Seoul National University, Seoul 110-799, South Korea [2] Department of Biomedical Sciences, Seoul National University College of Medicine, Seoul 110-799, South Korea [3] Department of Biochemistry, Seoul National University College of Medicine, Seoul 110-799, South Korea.
⁶ Department of Systems &Computational Biology, Albert Einstein College of Medicine of Yeshiva University, Bronx, New York 10461, USA.
⁷ Queensland Centre for Medical Genomics, Institute for Molecular Bioscience, The University of Queensland, St Lucia, Queensland 4072, Australia.
⁸ Australian Institute for Bioengineering and Nanotechnology, The University of Queensland, Brisbane, Queensland 4072, Australia.
⁹ Genome Biology Department, The John Curtin School of Medical Research, The Australian National University, Acton (Canberra), Australian Capital Territory 2601, Australia.
¹⁰ 1] Genome Biology Department, The John Curtin School of Medical Research, The Australian National University, Acton (Canberra), Australian Capital Territory 2601, Australia [2] Victor Chang Cardiac Research Institute, Darlinghurst (Sydney), New South Wales 2010, Australia.
¹¹ 1] Genomic Medicine Institute, Medical Research Center, Seoul National University, Seoul 110-799, South Korea [2] Life Science Institute, Macrogen Inc., Seoul 153-781, South Korea.
¹² 1] Genomic Medicine Institute, Medical Research Center, Seoul National University, Seoul 110-799, South Korea [2] Department of Biomedical Sciences, Seoul National University College of Medicine, Seoul 110-799, South Korea [3] Department of Biochemistry, Seoul National University College of Medicine, Seoul 110-799, South Korea [4] Life Science Institute, Macrogen Inc., Seoul 153-781, South Korea.
¹³ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Department of Physiology, University of Toronto, Toronto, Ontario M5T 3H7, Canada [3] Department of Obstetrics and Gynaecology, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
¹⁴ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Institute of Medical Science, University of Toronto, Toronto, Ontario M5T 3H7, Canada [3] Department of Obstetrics and Gynaecology, University of Toronto, Toronto, Ontario M5T 3H7, Canada.

PMID: 25503232
DOI: 10.1038/nature14047

Divergent reprogramming routes lead to alternative stem-cell states

Peter D Tonge et al. Nature. 2014.

. 2014 Dec 11;516(7530):192-7.

doi: 10.1038/nature14047.

Authors

Affiliations

¹ Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada.
² 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Institute of Medical Science, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
³ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Department of Medical Biophysics, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
⁴ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Department of Molecular Genetics, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
⁵ 1] Genomic Medicine Institute, Medical Research Center, Seoul National University, Seoul 110-799, South Korea [2] Department of Biomedical Sciences, Seoul National University College of Medicine, Seoul 110-799, South Korea [3] Department of Biochemistry, Seoul National University College of Medicine, Seoul 110-799, South Korea.
⁶ Department of Systems &Computational Biology, Albert Einstein College of Medicine of Yeshiva University, Bronx, New York 10461, USA.
⁷ Queensland Centre for Medical Genomics, Institute for Molecular Bioscience, The University of Queensland, St Lucia, Queensland 4072, Australia.
⁸ Australian Institute for Bioengineering and Nanotechnology, The University of Queensland, Brisbane, Queensland 4072, Australia.
⁹ Genome Biology Department, The John Curtin School of Medical Research, The Australian National University, Acton (Canberra), Australian Capital Territory 2601, Australia.
¹⁰ 1] Genome Biology Department, The John Curtin School of Medical Research, The Australian National University, Acton (Canberra), Australian Capital Territory 2601, Australia [2] Victor Chang Cardiac Research Institute, Darlinghurst (Sydney), New South Wales 2010, Australia.
¹¹ 1] Genomic Medicine Institute, Medical Research Center, Seoul National University, Seoul 110-799, South Korea [2] Life Science Institute, Macrogen Inc., Seoul 153-781, South Korea.
¹² 1] Genomic Medicine Institute, Medical Research Center, Seoul National University, Seoul 110-799, South Korea [2] Department of Biomedical Sciences, Seoul National University College of Medicine, Seoul 110-799, South Korea [3] Department of Biochemistry, Seoul National University College of Medicine, Seoul 110-799, South Korea [4] Life Science Institute, Macrogen Inc., Seoul 153-781, South Korea.
¹³ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Department of Physiology, University of Toronto, Toronto, Ontario M5T 3H7, Canada [3] Department of Obstetrics and Gynaecology, University of Toronto, Toronto, Ontario M5T 3H7, Canada.
¹⁴ 1] Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario M5G 1X5, Canada [2] Institute of Medical Science, University of Toronto, Toronto, Ontario M5T 3H7, Canada [3] Department of Obstetrics and Gynaecology, University of Toronto, Toronto, Ontario M5T 3H7, Canada.

PMID: 25503232
DOI: 10.1038/nature14047

Erratum in

Corrigendum: Divergent reprogramming routes lead to alternative stem-cell states.
Tonge PD, Corso AJ, Monetti C, Hussein SM, Puri MC, Michael IP, Li M, Lee DS, Mar JC, Cloonan N, Wood DL, Gauthier ME, Korn O, Clancy JL, Preiss T, Grimmond SM, Shin JY, Seo JS, Wells CA, Rogers IM, Nagy A. Tonge PD, et al. Nature. 2015 Jul 30;523(7562):626. doi: 10.1038/nature14607. Epub 2015 Jun 17. Nature. 2015. PMID: 26083751 No abstract available.

Abstract

Pluripotency is defined by the ability of a cell to differentiate to the derivatives of all the three embryonic germ layers: ectoderm, mesoderm and endoderm. Pluripotent cells can be captured via the archetypal derivation of embryonic stem cells or via somatic cell reprogramming. Somatic cells are induced to acquire a pluripotent stem cell (iPSC) state through the forced expression of key transcription factors, and in the mouse these cells can fulfil the strictest of all developmental assays for pluripotent cells by generating completely iPSC-derived embryos and mice. However, it is not known whether there are additional classes of pluripotent cells, or what the spectrum of reprogrammed phenotypes encompasses. Here we explore alternative outcomes of somatic reprogramming by fully characterizing reprogrammed cells independent of preconceived definitions of iPSC states. We demonstrate that by maintaining elevated reprogramming factor expression levels, mouse embryonic fibroblasts go through unique epigenetic modifications to arrive at a stable, Nanog-positive, alternative pluripotent state. In doing so, we prove that the pluripotent spectrum can encompass multiple, unique cell states.

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Comment in

Stem cells: A designer's guide to pluripotency.
Wu J, Izpisua Belmonte JC. Wu J, et al. Nature. 2014 Dec 11;516(7530):172-3. doi: 10.1038/516172a. Nature. 2014. PMID: 25503227 No abstract available.
Stem cells: multiple routes to pluripotency.
Baumann K. Baumann K. Nat Rev Genet. 2015 Feb;16(2):67. doi: 10.1038/nrg3892. Epub 2014 Dec 23. Nat Rev Genet. 2015. PMID: 25534322 No abstract available.

References

1. PLoS One. 2010 Jun 22;5(6):e11260 - PubMed
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1. Proc Natl Acad Sci U S A. 1993 Sep 15;90(18):8424-8 - PubMed

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Divergent reprogramming routes lead to alternative stem-cell states

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Divergent reprogramming routes lead to alternative stem-cell states

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