Literature DB >> 22422317

Generation of induced pluripotent stem cells from a small amount of human peripheral blood using a combination of activated T cells and Sendai virus.

Tomohisa Seki1, Shinsuke Yuasa, Keiichi Fukuda.   

Abstract

Induced pluripotent stem cells (iPSCs) have become important cell sources for genetic disease models, and they have the potential to be cell sources for future clinical therapies. However, invasive tissue sampling reduces the number of candidates who consent to donate cells for iPSC generation. In addition, integrated transgenes can potentially insert at inappropriate points in the genome, and in turn have a direct oncogenic effect. Technical modifications using a combination of activated T cells and a temperature-sensitive mutant of Sendai virus (SeV) can avoid invasive tissue sampling and residual transgene issues in generating iPSCs. Such advances may increase the number of consenting patients for cell donations. Here we present a detailed protocol for the generation of iPSCs from a small amount of human peripheral blood using a combination of activated T cells and mutant SeV encoding human OCT3/4, SOX2, KLF4 and c-MYC; T cell-derived iPSCs can be generated within 1 month of blood sampling.

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Year:  2012        PMID: 22422317     DOI: 10.1038/nprot.2012.015

Source DB:  PubMed          Journal:  Nat Protoc        ISSN: 1750-2799            Impact factor:   13.491


  21 in total

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4.  Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors.

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Journal:  Cell       Date:  2006-08-10       Impact factor: 41.582

5.  Generation of induced pluripotent stem cells from human blood.

Authors:  Yuin-Han Loh; Suneet Agarwal; In-Hyun Park; Achia Urbach; Hongguang Huo; Garrett C Heffner; Kitai Kim; Justine D Miller; Kitwa Ng; George Q Daley
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Journal:  PLoS One       Date:  2010-06-29       Impact factor: 3.240

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10.  Efficient induction of transgene-free human pluripotent stem cells using a vector based on Sendai virus, an RNA virus that does not integrate into the host genome.

Authors:  Noemi Fusaki; Hiroshi Ban; Akiyo Nishiyama; Koichi Saeki; Mamoru Hasegawa
Journal:  Proc Jpn Acad Ser B Phys Biol Sci       Date:  2009       Impact factor: 3.493
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  68 in total

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Authors:  Jennifer L Gori; Jason M Butler; Yan-Yi Chan; Devikha Chandrasekaran; Michael G Poulos; Michael Ginsberg; Daniel J Nolan; Olivier Elemento; Brent L Wood; Jennifer E Adair; Shahin Rafii; Hans-Peter Kiem
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3.  Advanced feeder-free generation of induced pluripotent stem cells directly from blood cells.

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Review 4.  Embryonic template-based generation and purification of pluripotent stem cell-derived cardiomyocytes for heart repair.

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Review 5.  All roads lead to induced pluripotent stem cells: the technologies of iPSC generation.

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Journal:  Stem Cells Dev       Date:  2014-03-21       Impact factor: 3.272

Review 6.  Modeling heterogeneous patients with a clinical diagnosis of schizophrenia with induced pluripotent stem cells.

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Journal:  Biol Psychiatry       Date:  2013-11-15       Impact factor: 13.382

7.  Generation of an induced pluripotent stem cell line (CSCRMi001-A) from a patient with a new type of limb-girdle muscular dystrophy (LGMD) due to a missense mutation in POGLUT1 (Rumi).

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8.  Cofilin-1 phosphorylation catalyzed by ERK1/2 alters cardiac actin dynamics in dilated cardiomyopathy caused by lamin A/C gene mutation.

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Journal:  Hum Mol Genet       Date:  2018-09-01       Impact factor: 6.150

Review 9.  Small molecule screening in human induced pluripotent stem cell-derived terminal cell types.

Authors:  Sandra J Engle; Fabien Vincent
Journal:  J Biol Chem       Date:  2013-12-20       Impact factor: 5.157

Review 10.  Urine-derived induced pluripotent stem cells as a modeling tool to study rare human diseases.

Authors:  Liang Shi; Yazhou Cui; Jing Luan; Xiaoyan Zhou; Jinxiang Han
Journal:  Intractable Rare Dis Res       Date:  2016-08
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