Cargando…

Amniocytes can serve a dual function as a source of iPS cells and feeder layers

Clinical barriers to stem-cell therapy include the need for efficient derivation of histocompatible stem cells and the zoonotic risk inherent to human stem-cell xenoculture on mouse feeder cells. We describe a system for efficiently deriving induced pluripotent stem (iPS) cells from human and mouse...

Descripción completa

Detalles Bibliográficos
Autores principales: Anchan, Raymond M., Quaas, Philipp, Gerami-Naini, Behzad, Bartake, Hrishikesh, Griffin, Adam, Zhou, Yilan, Day, Daniel, Eaton, Jennifer L., George, Liji L., Naber, Catherine, Turbe-Doan, Annick, Park, Peter J., Hornstein, Mark D., Maas, Richard L.
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2011
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3033187/
https://www.ncbi.nlm.nih.gov/pubmed/21156717
http://dx.doi.org/10.1093/hmg/ddq542
_version_ 1782197556262993920
author Anchan, Raymond M.
Quaas, Philipp
Gerami-Naini, Behzad
Bartake, Hrishikesh
Griffin, Adam
Zhou, Yilan
Day, Daniel
Eaton, Jennifer L.
George, Liji L.
Naber, Catherine
Turbe-Doan, Annick
Park, Peter J.
Hornstein, Mark D.
Maas, Richard L.
author_facet Anchan, Raymond M.
Quaas, Philipp
Gerami-Naini, Behzad
Bartake, Hrishikesh
Griffin, Adam
Zhou, Yilan
Day, Daniel
Eaton, Jennifer L.
George, Liji L.
Naber, Catherine
Turbe-Doan, Annick
Park, Peter J.
Hornstein, Mark D.
Maas, Richard L.
author_sort Anchan, Raymond M.
collection PubMed
description Clinical barriers to stem-cell therapy include the need for efficient derivation of histocompatible stem cells and the zoonotic risk inherent to human stem-cell xenoculture on mouse feeder cells. We describe a system for efficiently deriving induced pluripotent stem (iPS) cells from human and mouse amniocytes, and for maintaining the pluripotency of these iPS cells on mitotically inactivated feeder layers prepared from the same amniocytes. Both cellular components of this system are thus autologous to a single donor. Moreover, the use of human feeder cells reduces the risk of zoonosis. Generation of iPS cells using retroviral vectors from short- or long-term cultured human and mouse amniocytes using four factors, or two factors in mouse, occurs in 5–7 days with 0.5% efficiency. This efficiency is greater than that reported for mouse and human fibroblasts using similar viral infection approaches, and does not appear to result from selective reprogramming of Oct4(+) or c-Kit(+) amniocyte subpopulations. Derivation of amniocyte-derived iPS (AdiPS) cell colonies, which express pluripotency markers and exhibit appropriate microarray expression and DNA methylation properties, was facilitated by live immunostaining. AdiPS cells also generate embryoid bodies in vitro and teratomas in vivo. Furthermore, mouse and human amniocytes can serve as feeder layers for iPS cells and for mouse and human embryonic stem (ES) cells. Thus, human amniocytes provide an efficient source of autologous iPS cells and, as feeder cells, can also maintain iPS and ES cell pluripotency without the safety concerns associated with xenoculture.
format Text
id pubmed-3033187
institution National Center for Biotechnology Information
language English
publishDate 2011
publisher Oxford University Press
record_format MEDLINE/PubMed
spelling pubmed-30331872011-02-03 Amniocytes can serve a dual function as a source of iPS cells and feeder layers Anchan, Raymond M. Quaas, Philipp Gerami-Naini, Behzad Bartake, Hrishikesh Griffin, Adam Zhou, Yilan Day, Daniel Eaton, Jennifer L. George, Liji L. Naber, Catherine Turbe-Doan, Annick Park, Peter J. Hornstein, Mark D. Maas, Richard L. Hum Mol Genet Articles Clinical barriers to stem-cell therapy include the need for efficient derivation of histocompatible stem cells and the zoonotic risk inherent to human stem-cell xenoculture on mouse feeder cells. We describe a system for efficiently deriving induced pluripotent stem (iPS) cells from human and mouse amniocytes, and for maintaining the pluripotency of these iPS cells on mitotically inactivated feeder layers prepared from the same amniocytes. Both cellular components of this system are thus autologous to a single donor. Moreover, the use of human feeder cells reduces the risk of zoonosis. Generation of iPS cells using retroviral vectors from short- or long-term cultured human and mouse amniocytes using four factors, or two factors in mouse, occurs in 5–7 days with 0.5% efficiency. This efficiency is greater than that reported for mouse and human fibroblasts using similar viral infection approaches, and does not appear to result from selective reprogramming of Oct4(+) or c-Kit(+) amniocyte subpopulations. Derivation of amniocyte-derived iPS (AdiPS) cell colonies, which express pluripotency markers and exhibit appropriate microarray expression and DNA methylation properties, was facilitated by live immunostaining. AdiPS cells also generate embryoid bodies in vitro and teratomas in vivo. Furthermore, mouse and human amniocytes can serve as feeder layers for iPS cells and for mouse and human embryonic stem (ES) cells. Thus, human amniocytes provide an efficient source of autologous iPS cells and, as feeder cells, can also maintain iPS and ES cell pluripotency without the safety concerns associated with xenoculture. Oxford University Press 2011-03-01 2010-12-14 /pmc/articles/PMC3033187/ /pubmed/21156717 http://dx.doi.org/10.1093/hmg/ddq542 Text en © The Author 2010. Published by Oxford University Press http://creativecommons.org/licenses/by-nc/2.5/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.5), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Articles
Anchan, Raymond M.
Quaas, Philipp
Gerami-Naini, Behzad
Bartake, Hrishikesh
Griffin, Adam
Zhou, Yilan
Day, Daniel
Eaton, Jennifer L.
George, Liji L.
Naber, Catherine
Turbe-Doan, Annick
Park, Peter J.
Hornstein, Mark D.
Maas, Richard L.
Amniocytes can serve a dual function as a source of iPS cells and feeder layers
title Amniocytes can serve a dual function as a source of iPS cells and feeder layers
title_full Amniocytes can serve a dual function as a source of iPS cells and feeder layers
title_fullStr Amniocytes can serve a dual function as a source of iPS cells and feeder layers
title_full_unstemmed Amniocytes can serve a dual function as a source of iPS cells and feeder layers
title_short Amniocytes can serve a dual function as a source of iPS cells and feeder layers
title_sort amniocytes can serve a dual function as a source of ips cells and feeder layers
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3033187/
https://www.ncbi.nlm.nih.gov/pubmed/21156717
http://dx.doi.org/10.1093/hmg/ddq542
work_keys_str_mv AT anchanraymondm amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT quaasphilipp amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT geraminainibehzad amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT bartakehrishikesh amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT griffinadam amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT zhouyilan amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT daydaniel amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT eatonjenniferl amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT georgelijil amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT nabercatherine amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT turbedoanannick amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT parkpeterj amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT hornsteinmarkd amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers
AT maasrichardl amniocytescanserveadualfunctionasasourceofipscellsandfeederlayers