Literature DB >> 23395447

Human iPSC-derived oligodendrocyte progenitor cells can myelinate and rescue a mouse model of congenital hypomyelination.

Su Wang1, Janna Bates, Xiaojie Li, Steven Schanz, Devin Chandler-Militello, Corri Levine, Nimet Maherali, Lorenz Studer, Konrad Hochedlinger, Martha Windrem, Steven A Goldman.   

Abstract

Neonatal engraftment by oligodendrocyte progenitor cells (OPCs) permits the myelination of the congenitally dysmyelinated brain. To establish a potential autologous source of these cells, we developed a strategy by which to differentiate human induced pluripotent stem cells (hiPSCs) into OPCs. From three hiPSC lines, as well as from human embryonic stem cells (hESCs), we generated highly enriched OLIG2(+)/PDGFRα(+)/NKX2.2(+)/SOX10(+) human OPCs, which could be further purified using fluorescence-activated cell sorting. hiPSC OPCs efficiently differentiated into both myelinogenic oligodendrocytes and astrocytes, in vitro and in vivo. Neonatally engrafted hiPSC OPCs robustly myelinated the brains of myelin-deficient shiverer mice and substantially increased their survival. The speed and efficiency of myelination by hiPSC OPCs was higher than that previously observed using fetal-tissue-derived OPCs, and no tumors from these grafts were noted as long as 9 months after transplant. These results suggest the potential utility of hiPSC-derived OPCs in treating disorders of myelin loss.
Copyright © 2013 Elsevier Inc. All rights reserved.

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Year:  2013        PMID: 23395447      PMCID: PMC3700553          DOI: 10.1016/j.stem.2012.12.002

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   24.633


  30 in total

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3.  Specification of transplantable astroglial subtypes from human pluripotent stem cells.

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4.  Defective glial maturation in vanishing white matter disease.

Authors:  Marianna Bugiani; Ilja Boor; Barbara van Kollenburg; Nienke Postma; Emiel Polder; Carola van Berkel; Ronald E van Kesteren; Martha S Windrem; Elly M Hol; Gert C Scheper; Steven A Goldman; Marjo S van der Knaap
Journal:  J Neuropathol Exp Neurol       Date:  2011-01       Impact factor: 3.685

5.  Differentiation of human oligodendrocytes from pluripotent stem cells.

Authors:  Bao-Yang Hu; Zhong-Wei Du; Su-Chun Zhang
Journal:  Nat Protoc       Date:  2009-10-15       Impact factor: 13.491

6.  A high-efficiency system for the generation and study of human induced pluripotent stem cells.

Authors:  Nimet Maherali; Tim Ahfeldt; Alessandra Rigamonti; Jochen Utikal; Chad Cowan; Konrad Hochedlinger
Journal:  Cell Stem Cell       Date:  2008-09-11       Impact factor: 24.633

7.  Fetal and adult human oligodendrocyte progenitor cell isolates myelinate the congenitally dysmyelinated brain.

Authors:  Martha S Windrem; Marta C Nunes; William K Rashbaum; Theodore H Schwartz; Robert A Goodman; Guy McKhann; Neeta S Roy; Steven A Goldman
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8.  Human oligodendrocytes from embryonic stem cells: conserved SHH signaling networks and divergent FGF effects.

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Journal:  Development       Date:  2009-05       Impact factor: 6.868

9.  CD15, CD24, and CD29 define a surface biomarker code for neural lineage differentiation of stem cells.

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Authors:  Stuart M Chambers; Christopher A Fasano; Eirini P Papapetrou; Mark Tomishima; Michel Sadelain; Lorenz Studer
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  242 in total

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Journal:  Mol Biotechnol       Date:  2014-01       Impact factor: 2.695

5.  Differing intrinsic biological properties between forebrain and spinal oligodendroglial lineage cells.

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Review 6.  Pluripotent stem cells in regenerative medicine: challenges and recent progress.

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Journal:  Nat Rev Genet       Date:  2014-02       Impact factor: 53.242

7.  Olig1 function is required for oligodendrocyte differentiation in the mouse brain.

Authors:  Jinxiang Dai; Kathryn K Bercury; Jared T Ahrendsen; Wendy B Macklin
Journal:  J Neurosci       Date:  2015-03-11       Impact factor: 6.167

8.  Overexpression of VLA-4 in glial-restricted precursors enhances their endothelial docking and induces diapedesis in a mouse stroke model.

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9.  Engineered Axonal Tracts as "Living Electrodes" for Synaptic-Based Modulation of Neural Circuitry.

Authors:  Mijail D Serruya; James P Harris; Dayo O Adewole; Laura A Struzyna; Justin C Burrell; Ashley Nemes; Dmitriy Petrov; Reuben H Kraft; H Isaac Chen; John A Wolf; D Kacy Cullen
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Review 10.  Mechanisms of Axonal Damage and Repair after Central Nervous System Injury.

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