Reprogramming Huntington Monkey Skin Cells into Pluripotent Stem Cells

Anthony Chan; Pei-Hsun Cheng; Adam Neumann; Jin Jing Yang

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Author Notes:

Address correspondence to: Dr. Anthony W.S. Chan, Yerkes National Primate Research Center, Emory University School of Medicine, Room 2212 Neuroscience Building, 954 Gatewood Road., N.E., Atlanta, GA 30329. E-mail:awchan@emory.edu

Subject:

Biology, Genetics

Research Funding:

The YNPRC is supported by the base grant RR-00165 awarded by the Animal Resources Program of the NIH. This study is supported in part by NCRR at NIH (RR018827) and the Atlanta Clinical & Translational Science Institute award to A.W.S.C. A.W.S.C. is supported by NIH (RR018827-05A1, RR018827-05A1S1, and NS064991).

Reprogramming Huntington Monkey Skin Cells into Pluripotent Stem Cells

Anthony Chan, Emory University

Pei-Hsun Cheng, Emory University

Adam Neumann, Emory University

Jin Jing Yang, Emory University

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Journal Title:

Cellular Reprogramming

Volume:

Volume 12, Number 5

Publisher:

Mary Ann Liebert, Inc. | 2010-10, Pages 509-517

Type of Work:

Article | Post-print: After Peer Review

Permanent URL:

http://pid.emory.edu/ark:/25593/f7n39

Publisher DOI:

http://doi.org/10.1089/cell.2010.0019

Abstract:

Abstract Induced pluripotent Huntington's disease monkey stem cells (rHD-iPSCs) were established by the overexpression of rhesus macaque transcription factors (Oct4, Sox2, and Klf4) in transgenic Huntington's monkey skin fibroblasts. The rHD-iPSCs were pluripotent and capable of differentiating into neuronal cell types in vitro and developed teratoma in immune compromised mice. We also demonstrated the upregulation of endogenous Oct4 and Sox2 after successful reprogramming to pluripotency in rHD-iPSCs, which was not expressed in skin fibroblasts. rHD-iPSCs also developed cellular features comparable to Huntington's disease (HD), including the accumulation of mutant huntingtin (htt) aggregate and the formation of intranuclear inclusions (NIs) paralleling neural differentiation in vitro. Induced pluripotent stem cells from transgenic HD monkeys open a new era of nonhuman primate modeling of human diseases. rHD-iPSCs that develop key HD cellular features and parallel neural differentiation can be a powerful platform for investigating the developmental impact on HD pathogenesis and developing new therapies, which can be evaluated in HD monkeys from whom the rHD-iPSCs were derived.

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Reprogramming Huntington Monkey Skin Cells into Pluripotent Stem Cells

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