Efficient reprogramming of human cord blood CD34+ cells into induced pluripotent stem cells with OCT4 and SOX2 alone

Xianmei Meng; Amanda Neises; Rui Jun Su; Kimberly J. Payne; Linda Ritter; Daila S. Gridley; Jun Wang; Matilda Sheng; K. H.William Lau; David J. Baylink; Xiao Bing Zhang

doi:10.1038/mt.2011.258

Efficient reprogramming of human cord blood CD34⁺ cells into induced pluripotent stem cells with OCT4 and SOX2 alone

Xianmei Meng, Amanda Neises, Rui Jun Su, Kimberly J. Payne, Linda Ritter, Daila S. Gridley, Jun Wang, Matilda Sheng, K. H.William Lau, David J. Baylink, Xiao Bing Zhang

Research output: Contribution to journal › Article › peer-review

Abstract

The reprogramming of cord blood (CB) cells into induced pluripotent stem cells (iPSCs) has potential applications in regenerative medicine by converting CB banks into iPSC banks for allogeneic cell replacement therapy. Therefore, further investigation into novel approaches for efficient reprogramming is necessary. Here, we show that the lentiviral expression of OCT4 together with SOX2 (OS) driven by a strong spleen focus-forming virus (SFFV) promoter in a single vector can convert 2% of CB CD34 cells into iPSCs without additional reprogramming factors. Reprogramming efficiency was found to be critically dependent upon expression levels of OS. To generate transgene-free iPSCs, we developed an improved episomal vector with a woodchuck post-transcriptional regulatory element (Wpre) that increases transgene expression by 50%. With this vector, we successfully generated transgene-free iPSCs using OS alone. In conclusion, high-level expression of OS alone is sufficient for efficient reprogramming of CB CD34 cells into iPSCs. This report is the first to describe the generation of transgene-free iPSCs with the use of OCT4 and SOX2 alone. These findings have important implications for the clinical applications of iPSCs. © The American Society of Gene & Cell Therapy.

Original language	English
Pages (from-to)	408-416
Number of pages	9
Journal	Molecular Therapy
Volume	20
Issue number	2
DOIs	https://doi.org/10.1038/mt.2011.258
State	Published - Feb 2012

ASJC Scopus Subject Areas

Molecular Medicine
Molecular Biology
Genetics
Pharmacology
Drug Discovery

Keywords

Kruppel-Like Factor 4
Gene Expression
Humans
Proto-Oncogene Proteins c-myc/metabolism
Octamer Transcription Factor-3/genetics
Hematopoietic Stem Cells/cytology
Fetal Blood/cytology
Induced Pluripotent Stem Cells/cytology
SOXB1 Transcription Factors/genetics
Antigens, CD34/metabolism
Genetic Vectors/genetics
Cell Differentiation/genetics
Kruppel-Like Transcription Factors/metabolism
Lentivirus/genetics

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title = "Efficient reprogramming of human cord blood CD34+ cells into induced pluripotent stem cells with OCT4 and SOX2 alone",

abstract = "The reprogramming of cord blood (CB) cells into induced pluripotent stem cells (iPSCs) has potential applications in regenerative medicine by converting CB banks into iPSC banks for allogeneic cell replacement therapy. Therefore, further investigation into novel approaches for efficient reprogramming is necessary. Here, we show that the lentiviral expression of OCT4 together with SOX2 (OS) driven by a strong spleen focus-forming virus (SFFV) promoter in a single vector can convert 2% of CB CD34 cells into iPSCs without additional reprogramming factors. Reprogramming efficiency was found to be critically dependent upon expression levels of OS. To generate transgene-free iPSCs, we developed an improved episomal vector with a woodchuck post-transcriptional regulatory element (Wpre) that increases transgene expression by 50%. With this vector, we successfully generated transgene-free iPSCs using OS alone. In conclusion, high-level expression of OS alone is sufficient for efficient reprogramming of CB CD34 cells into iPSCs. This report is the first to describe the generation of transgene-free iPSCs with the use of OCT4 and SOX2 alone. These findings have important implications for the clinical applications of iPSCs. {\textcopyright} The American Society of Gene & Cell Therapy.",

keywords = "Kruppel-Like Factor 4, Gene Expression, Humans, Proto-Oncogene Proteins c-myc/metabolism, Octamer Transcription Factor-3/genetics, Hematopoietic Stem Cells/cytology, Fetal Blood/cytology, Induced Pluripotent Stem Cells/cytology, SOXB1 Transcription Factors/genetics, Antigens, CD34/metabolism, Genetic Vectors/genetics, Cell Differentiation/genetics, Kruppel-Like Transcription Factors/metabolism, Lentivirus/genetics",

author = "Xianmei Meng and Amanda Neises and Su, {Rui Jun} and Payne, {Kimberly J.} and Linda Ritter and Gridley, {Daila S.} and Jun Wang and Matilda Sheng and Lau, {K. H.William} and Baylink, {David J.} and Zhang, {Xiao Bing}",

note = "Funding Information: Imaging was performed in the LLUSM Advanced Imaging and Microscopy Core that is supported by NSF Grant No. MRI-DBI 0923559 (Sean M Wilson) and the Loma Linda University School of Medicine. The authors thank Monica Rubalcava for technical support in confocal imaging. This work was supported by Loma Linda University Department of Medicine (X.-B.Z.), Loma Linda University GRASP Award (X.-B.Z.), and DOD Basic Award W81XWH-11-1-0607 (X.-B.Z.), USAMRAA Grant W81XWH-08-1-0697 (D.J.B), and the Division of Anatomy, the Department of Basic Sciences, the Center for Health Disparities and Molecular Medicine at Loma Linda University (K.J.P. and R-J.S.) and Radiation Research Laboratories in the Department of Radiation Medicine at Loma Linda University (L.R. and D.S.G). The authors declared no conflict of interest.",

year = "2012",

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doi = "10.1038/mt.2011.258",

language = "English",

volume = "20",

pages = "408--416",

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T1 - Efficient reprogramming of human cord blood CD34+ cells into induced pluripotent stem cells with OCT4 and SOX2 alone

AU - Meng, Xianmei

AU - Neises, Amanda

AU - Su, Rui Jun

AU - Payne, Kimberly J.

AU - Ritter, Linda

AU - Gridley, Daila S.

AU - Wang, Jun

AU - Sheng, Matilda

AU - Lau, K. H.William

AU - Baylink, David J.

AU - Zhang, Xiao Bing

N1 - Funding Information: Imaging was performed in the LLUSM Advanced Imaging and Microscopy Core that is supported by NSF Grant No. MRI-DBI 0923559 (Sean M Wilson) and the Loma Linda University School of Medicine. The authors thank Monica Rubalcava for technical support in confocal imaging. This work was supported by Loma Linda University Department of Medicine (X.-B.Z.), Loma Linda University GRASP Award (X.-B.Z.), and DOD Basic Award W81XWH-11-1-0607 (X.-B.Z.), USAMRAA Grant W81XWH-08-1-0697 (D.J.B), and the Division of Anatomy, the Department of Basic Sciences, the Center for Health Disparities and Molecular Medicine at Loma Linda University (K.J.P. and R-J.S.) and Radiation Research Laboratories in the Department of Radiation Medicine at Loma Linda University (L.R. and D.S.G). The authors declared no conflict of interest.

PY - 2012/2

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N2 - The reprogramming of cord blood (CB) cells into induced pluripotent stem cells (iPSCs) has potential applications in regenerative medicine by converting CB banks into iPSC banks for allogeneic cell replacement therapy. Therefore, further investigation into novel approaches for efficient reprogramming is necessary. Here, we show that the lentiviral expression of OCT4 together with SOX2 (OS) driven by a strong spleen focus-forming virus (SFFV) promoter in a single vector can convert 2% of CB CD34 cells into iPSCs without additional reprogramming factors. Reprogramming efficiency was found to be critically dependent upon expression levels of OS. To generate transgene-free iPSCs, we developed an improved episomal vector with a woodchuck post-transcriptional regulatory element (Wpre) that increases transgene expression by 50%. With this vector, we successfully generated transgene-free iPSCs using OS alone. In conclusion, high-level expression of OS alone is sufficient for efficient reprogramming of CB CD34 cells into iPSCs. This report is the first to describe the generation of transgene-free iPSCs with the use of OCT4 and SOX2 alone. These findings have important implications for the clinical applications of iPSCs. © The American Society of Gene & Cell Therapy.

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