Literature DB >> 23242162

Direct conversion of quiescent cardiomyocytes to pacemaker cells by expression of Tbx18.

Nidhi Kapoor1, Wenbin Liang, Eduardo Marbán, Hee Cheol Cho.   

Abstract

The heartbeat originates within the sinoatrial node (SAN), a small structure containing <10,000 genuine pacemaker cells. If the SAN fails, the ∼5 billion working cardiomyocytes downstream of it become quiescent, leading to circulatory collapse in the absence of electronic pacemaker therapy. Here we demonstrate conversion of rodent cardiomyocytes to SAN cells in vitro and in vivo by expression of Tbx18, a gene critical for early SAN specification. Within days of in vivo Tbx18 transduction, 9.2% of transduced, ventricular cardiomyocytes develop spontaneous electrical firing physiologically indistinguishable from that of SAN cells, along with morphological and epigenetic features characteristic of SAN cells. In vivo, focal Tbx18 gene transfer in the guinea-pig ventricle yields ectopic pacemaker activity, correcting a bradycardic disease phenotype. Myocytes transduced in vivo acquire the cardinal tapering morphology and physiological automaticity of native SAN pacemaker cells. The creation of induced SAN pacemaker (iSAN) cells opens new prospects for bioengineered pacemakers.

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Year:  2012        PMID: 23242162      PMCID: PMC3775583          DOI: 10.1038/nbt.2465

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  55 in total

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4.  Calcium cycling protein density and functional importance to automaticity of isolated sinoatrial nodal cells are independent of cell size.

Authors:  Alexey E Lyashkov; Magdalena Juhaszova; Halina Dobrzynski; Tatiana M Vinogradova; Victor A Maltsev; Ondrej Juhasz; Harold A Spurgeon; Steven J Sollott; Edward G Lakatta
Journal:  Circ Res       Date:  2007-05-24       Impact factor: 17.367

5.  Tbx3 controls the sinoatrial node gene program and imposes pacemaker function on the atria.

Authors:  Willem M H Hoogaars; Angela Engel; Janynke F Brons; Arie O Verkerk; Frederik J de Lange; L Y Elaine Wong; Martijn L Bakker; Danielle E Clout; Vincent Wakker; Phil Barnett; Jan Hindrik Ravesloot; Antoon F M Moorman; E Etienne Verheijck; Vincent M Christoffels
Journal:  Genes Dev       Date:  2007-05-01       Impact factor: 11.361

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Authors:  Hee Cheol Cho; Yuji Kashiwakura; Eduardo Marbán
Journal:  Circ Res       Date:  2007-03-29       Impact factor: 17.367

7.  Tbx5-dependent rheostatic control of cardiac gene expression and morphogenesis.

Authors:  Alessandro D Mori; Yonghong Zhu; Ilyas Vahora; Brian Nieman; Kazuko Koshiba-Takeuchi; Lorinda Davidson; Anne Pizard; J G Seidman; Christine E Seidman; X Josette Chen; R Mark Henkelman; Benoit G Bruneau
Journal:  Dev Biol       Date:  2006-05-24       Impact factor: 3.582

8.  Targeted mutation reveals essential functions of the homeodomain transcription factor Shox2 in sinoatrial and pacemaking development.

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Journal:  Circulation       Date:  2007-03-19       Impact factor: 29.690

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

Authors:  Kazutoshi Takahashi; Shinya Yamanaka
Journal:  Cell       Date:  2006-08-10       Impact factor: 41.582

10.  Induction of pluripotent stem cells from adult human fibroblasts by defined factors.

Authors:  Kazutoshi Takahashi; Koji Tanabe; Mari Ohnuki; Megumi Narita; Tomoko Ichisaka; Kiichiro Tomoda; Shinya Yamanaka
Journal:  Cell       Date:  2007-11-30       Impact factor: 41.582
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  121 in total

Review 1.  Engineering Cell Fate for Tissue Regeneration by In Vivo Transdifferentiation.

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2.  Mutations in TBX18 Cause Dominant Urinary Tract Malformations via Transcriptional Dysregulation of Ureter Development.

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Journal:  Am J Hum Genet       Date:  2015-07-30       Impact factor: 11.025

3.  Biology of the Sinus Node and its Disease.

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Journal:  Arrhythm Electrophysiol Rev       Date:  2015-05-30

4.  Same-Single-Cell Analysis of Pacemaker-Specific Markers in Human Induced Pluripotent Stem Cell-Derived Cardiomyocyte Subtypes Classified by Electrophysiology.

Authors:  Sergey Yechikov; Raul Copaciu; Jessica M Gluck; Wenbin Deng; Nipavan Chiamvimonvat; James W Chan; Deborah K Lieu
Journal:  Stem Cells       Date:  2016-07-29       Impact factor: 6.277

5.  Tbx18 regulates development of the epicardium and coronary vessels.

Authors:  San-Pin Wu; Xiu-Rong Dong; Jenna N Regan; Chang Su; Mark W Majesky
Journal:  Dev Biol       Date:  2013-09-07       Impact factor: 3.582

6.  Muscarinic receptors promote pacemaker fate at the expense of secondary conduction system tissue in zebrafish.

Authors:  Martina S Burczyk; Martin D Burkhalter; Teresa Casar Tena; Laurel A Grisanti; Michael Kauk; Sabrina Matysik; Cornelia Donow; Monika Kustermann; Melanie Rothe; Yinghong Cui; Farah Raad; Svenja Laue; Allessandra Moretti; Wolfram-H Zimmermann; Jürgen Wess; Michael Kühl; Carsten Hoffmann; Douglas G Tilley; Melanie Philipp
Journal:  JCI Insight       Date:  2019-10-17

7.  Transcription factor Tbx18 induces the differentiation of c-kit+ canine mesenchymal stem cells (cMSCs) into SAN-like pacemaker cells in a co-culture model in vitro.

Authors:  Hua Xiao; Yong-Jun Yang; Yi-Zhang Lin; Song Peng; Shu Lin; Zhi-Yuan Song
Journal:  Am J Transl Res       Date:  2018-08-15       Impact factor: 4.060

Review 8.  Gene therapy to treat cardiac arrhythmias.

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Journal:  Nat Rev Cardiol       Date:  2015-04-28       Impact factor: 32.419

9.  Transcription Factor prrx1 Promotes Brown Adipose-Derived Stem Cells Differentiation to Sinus Node-Like Cells.

Authors:  Lin Yin; Ming-Xin Liu; Feng-Yuan Wang; Xi Wang; Yan-Hong Tang; Qing-Yan Zhao; Teng Wang; Yu-Ting Chen; Cong-Xin Huang
Journal:  DNA Cell Biol       Date:  2019-09-23       Impact factor: 3.311

Review 10.  Trafficking highways to the intercalated disc: new insights unlocking the specificity of connexin 43 localization.

Authors:  Shan-Shan Zhang; Robin M Shaw
Journal:  Cell Commun Adhes       Date:  2014-02
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