Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review

Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review

The generation of induced pluripotent stem cells (iPS cells) has pioneered the field of regenerative medicine and developmental biology. They can be generated by overexpression of a defined set of transcription factors in somatic cells derived from easily accessible tissues such as skin or plucked h...

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Main Authors: Martin Müller, Thomas Seufferlein, Anett Illing, Jörg Homann
Format: Article
Language:English
Published: Hindawi Limited 2013-01-01
Series:Stem Cells International
Online Access:http://dx.doi.org/10.1155/2013/496501
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spelling doaj-63286928d14c476d8e1d4c99a6b3ea212020-11-25T00:14:37ZengHindawi LimitedStem Cells International1687-966X1687-96782013-01-01201310.1155/2013/496501496501Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive ReviewMartin Müller0Thomas Seufferlein1Anett Illing2Jörg Homann3Department of Internal Medicine I, University Hospital of Ulm, Albert-Einstein Allee 23, 89081 Ulm, GermanyDepartment of Internal Medicine I, University Hospital of Ulm, Albert-Einstein Allee 23, 89081 Ulm, GermanyDepartment of Internal Medicine I, University Hospital of Ulm, Albert-Einstein Allee 23, 89081 Ulm, GermanyDepartment of Internal Medicine II, University Hospital of Ulm, Albert-Einstein Allee 23, 89081 Ulm, GermanyThe generation of induced pluripotent stem cells (iPS cells) has pioneered the field of regenerative medicine and developmental biology. They can be generated by overexpression of a defined set of transcription factors in somatic cells derived from easily accessible tissues such as skin or plucked hair or even human urine. In case of applying this tool to patients who are classified into a disease group, it enables the generation of a disease- and patient-specific research platform. iPS cells have proven a significant tool to elucidate pathophysiological mechanisms in various diseases such as diabetes, blood disorders, defined neurological disorders, and genetic liver disease. One of the first successfully modelled human diseases was long QT syndrome, an inherited cardiac channelopathy which causes potentially fatal cardiac arrhythmia. This review summarizes the efforts of reprogramming various types of long QT syndrome and discusses the potential underlying mechanisms and their application.http://dx.doi.org/10.1155/2013/496501
collection DOAJ
language English
format Article
sources DOAJ
author Martin Müller
Thomas Seufferlein
Anett Illing
Jörg Homann
spellingShingle Martin Müller
Thomas Seufferlein
Anett Illing
Jörg Homann
Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review
Stem Cells International
author_facet Martin Müller
Thomas Seufferlein
Anett Illing
Jörg Homann
author_sort Martin Müller
title Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review
title_short Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review
title_full Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review
title_fullStr Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review
title_full_unstemmed Modelling Human Channelopathies Using Induced Pluripotent Stem Cells: A Comprehensive Review
title_sort modelling human channelopathies using induced pluripotent stem cells: a comprehensive review
publisher Hindawi Limited
series Stem Cells International
issn 1687-966X
1687-9678
publishDate 2013-01-01
description The generation of induced pluripotent stem cells (iPS cells) has pioneered the field of regenerative medicine and developmental biology. They can be generated by overexpression of a defined set of transcription factors in somatic cells derived from easily accessible tissues such as skin or plucked hair or even human urine. In case of applying this tool to patients who are classified into a disease group, it enables the generation of a disease- and patient-specific research platform. iPS cells have proven a significant tool to elucidate pathophysiological mechanisms in various diseases such as diabetes, blood disorders, defined neurological disorders, and genetic liver disease. One of the first successfully modelled human diseases was long QT syndrome, an inherited cardiac channelopathy which causes potentially fatal cardiac arrhythmia. This review summarizes the efforts of reprogramming various types of long QT syndrome and discusses the potential underlying mechanisms and their application.
url http://dx.doi.org/10.1155/2013/496501
work_keys_str_mv AT martinmuller modellinghumanchannelopathiesusinginducedpluripotentstemcellsacomprehensivereview
AT thomasseufferlein modellinghumanchannelopathiesusinginducedpluripotentstemcellsacomprehensivereview
AT anettilling modellinghumanchannelopathiesusinginducedpluripotentstemcellsacomprehensivereview
AT jorghomann modellinghumanchannelopathiesusinginducedpluripotentstemcellsacomprehensivereview
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