Staff View: Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach

Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach

Induced pluripotent stem cells (iPSCs) with potential for therapeutic applications can be derived from somatic cells via ectopic expression of a set of limited and defined transcription factors. However, due to risks of random integration of the reprogramming transgenes into the host genome, the low...

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Main Authors:	Moschidou, D., Mukherjee, S., Blundell, M.P., Drews, K., Jones, G.N., Abdulrazzak, H., Nowakowska, B., Phoolchund, A., Lay, K., Ramasamy, T.S., Cananzi, M., Nettersheim, D., Sullivan, M., Frost, J., Moore, G., Vermeesch, J.R., Fisk, N.M., Thrasher, A.J., Atala, A., Adjaye, J., Schorle, H., De Coppi, P., Guillot, P.V.
Format:	Article
Published:	2012
Subjects:	R Medicine
Online Access:	http://eprints.um.edu.my/9244/
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spelling	my.um.eprints.92442014-02-07T02:48:10Z http://eprints.um.edu.my/9244/ Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach Moschidou, D. Mukherjee, S. Blundell, M.P. Drews, K. Jones, G.N. Abdulrazzak, H. Nowakowska, B. Phoolchund, A. Lay, K. Ramasamy, T.S. Cananzi, M. Nettersheim, D. Sullivan, M. Frost, J. Moore, G. Vermeesch, J.R. Fisk, N.M. Thrasher, A.J. Atala, A. Adjaye, J. Schorle, H. De Coppi, P. Guillot, P.V. R Medicine Induced pluripotent stem cells (iPSCs) with potential for therapeutic applications can be derived from somatic cells via ectopic expression of a set of limited and defined transcription factors. However, due to risks of random integration of the reprogramming transgenes into the host genome, the low efficiency of the process, and the potential risk of virally induced tumorigenicity, alternative methods have been developed to generate pluripotent cells using nonintegrating systems, albeit with limited success. Here, we show that c-KIT+ human first-trimester amniotic fluid stem cells (AFSCs) can be fully reprogrammed to pluripotency without ectopic factors, by culture on Matrigel in human embryonic stem cell (hESC) medium supplemented with the histone deacetylase inhibitor (HDACi) valproic acid (VPA). The cells share 82 transcriptome identity with hESCs and are capable of forming embryoid bodies (EBs) in vitro and teratomas in vivo. After long-term expansion, they maintain genetic stability, protein level expression of key pluripotency factors, high cell-division kinetics, telomerase activity, repression of X-inactivation, and capacity to differentiate into lineages of the three germ layers, such as definitive endoderm, hepatocytes, bone, fat, cartilage, neurons, and oligodendrocytes. We conclude that AFSC can be utilized for cell banking of patient-specific pluripotent cells for potential applications in allogeneic cellular replacement therapies, pharmaceutical screening, and disease modeling. 2012 Article PeerReviewed Moschidou, D. and Mukherjee, S. and Blundell, M.P. and Drews, K. and Jones, G.N. and Abdulrazzak, H. and Nowakowska, B. and Phoolchund, A. and Lay, K. and Ramasamy, T.S. and Cananzi, M. and Nettersheim, D. and Sullivan, M. and Frost, J. and Moore, G. and Vermeesch, J.R. and Fisk, N.M. and Thrasher, A.J. and Atala, A. and Adjaye, J. and Schorle, H. and De Coppi, P. and Guillot, P.V. (2012) Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach. Molecular Therapy, 20 (10). pp. 1953-1967. ISSN 1525-0016 10.1038/mt.2012.117
institution	Universiti Malaya
building	UM Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Malaya
content_source	UM Research Repository
url_provider	http://eprints.um.edu.my/
topic	R Medicine
spellingShingle	R Medicine Moschidou, D. Mukherjee, S. Blundell, M.P. Drews, K. Jones, G.N. Abdulrazzak, H. Nowakowska, B. Phoolchund, A. Lay, K. Ramasamy, T.S. Cananzi, M. Nettersheim, D. Sullivan, M. Frost, J. Moore, G. Vermeesch, J.R. Fisk, N.M. Thrasher, A.J. Atala, A. Adjaye, J. Schorle, H. De Coppi, P. Guillot, P.V. Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach
description	Induced pluripotent stem cells (iPSCs) with potential for therapeutic applications can be derived from somatic cells via ectopic expression of a set of limited and defined transcription factors. However, due to risks of random integration of the reprogramming transgenes into the host genome, the low efficiency of the process, and the potential risk of virally induced tumorigenicity, alternative methods have been developed to generate pluripotent cells using nonintegrating systems, albeit with limited success. Here, we show that c-KIT+ human first-trimester amniotic fluid stem cells (AFSCs) can be fully reprogrammed to pluripotency without ectopic factors, by culture on Matrigel in human embryonic stem cell (hESC) medium supplemented with the histone deacetylase inhibitor (HDACi) valproic acid (VPA). The cells share 82 transcriptome identity with hESCs and are capable of forming embryoid bodies (EBs) in vitro and teratomas in vivo. After long-term expansion, they maintain genetic stability, protein level expression of key pluripotency factors, high cell-division kinetics, telomerase activity, repression of X-inactivation, and capacity to differentiate into lineages of the three germ layers, such as definitive endoderm, hepatocytes, bone, fat, cartilage, neurons, and oligodendrocytes. We conclude that AFSC can be utilized for cell banking of patient-specific pluripotent cells for potential applications in allogeneic cellular replacement therapies, pharmaceutical screening, and disease modeling.
format	Article
author	Moschidou, D. Mukherjee, S. Blundell, M.P. Drews, K. Jones, G.N. Abdulrazzak, H. Nowakowska, B. Phoolchund, A. Lay, K. Ramasamy, T.S. Cananzi, M. Nettersheim, D. Sullivan, M. Frost, J. Moore, G. Vermeesch, J.R. Fisk, N.M. Thrasher, A.J. Atala, A. Adjaye, J. Schorle, H. De Coppi, P. Guillot, P.V.
author_facet	Moschidou, D. Mukherjee, S. Blundell, M.P. Drews, K. Jones, G.N. Abdulrazzak, H. Nowakowska, B. Phoolchund, A. Lay, K. Ramasamy, T.S. Cananzi, M. Nettersheim, D. Sullivan, M. Frost, J. Moore, G. Vermeesch, J.R. Fisk, N.M. Thrasher, A.J. Atala, A. Adjaye, J. Schorle, H. De Coppi, P. Guillot, P.V.
author_sort	Moschidou, D.
title	Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach
title_short	Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach
title_full	Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach
title_fullStr	Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach
title_full_unstemmed	Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach
title_sort	valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach
publishDate	2012
url	http://eprints.um.edu.my/9244/
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score	13.18916

Valproic acid confers functional pluripotency to human amniotic fluid stem cells in a transgene-free approach

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