sg:pub.10.1038/sj.gt.3303017 - Springer Nature SciGraph

Article Info

DATE

2008-02

AUTHORS

P Gallo, S Grimaldi, M V G Latronico, D Bonci, A Pagliuca, P Gallo, S Ausoni, C Peschle, G Condorelli

ABSTRACT

Human embryonic stem cells (hESCs) may become important for cardiac repair due to their potentially unlimited ability to generate cardiomyocytes (CMCs). Moreover, genetic manipulation of hESC-derived CMCs would be a very promising technique for curing myocardial disorders. At the present time, however, inducing the differentiation of hESCs into CMCs is extremely difficult and, therefore, an easy and standardizable technique is needed to evaluate differentiation strategies. Vectors driving cardiac-specific expression may represent an important tool not only for monitoring new cardiac-differentiation strategies, but also for the manipulation of cardiac differentiation of ESCs. To this aim, we generated cardiac-specific lentiviral vectors (LVVs) in which expression is driven by a short fragment of the cardiac troponin-I proximal promoter (TNNI3) with a human cardiac alpha-actin enhancer, and tested its suitability in inducing tissue-specific gene expression and ability to track the CMC lineage during differentiation of ESCs. We determined that (1) TNNI3-LVVs efficiently drive cardiac-specific gene expression and mark the cardiomyogenic lineage in human and mouse ESC differentiation systems (2) the cardiac alpha-actin enhancer confers a further increase in gene-expression specificity of TNNI3-LVVs in hESCs. Although this technique may not be useful in tracking small numbers of cells, data suggested that TNNI3-based LVVs are a powerful tool for manipulating human ESCs and modifying hESC-derived CMCs. More... »

PAGES

161

References to SciGraph publications

2003-04. ‘Advanced’ generation lentiviruses as efficient vectors for cardiomyocyte gene transduction in vitro and in vivo in GENE THERAPY

2007-02. Cardiac stem cells: isolation, expansion and experimental use for myocardial regeneration in NATURE REVIEWS CARDIOLOGY

2004-10. Electromechanical integration of cardiomyocytes derived from human embryonic stem cells in NATURE BIOTECHNOLOGY

2001-01. Viral vectors for gene therapy: the art of turning infectious agents into vehicles of therapeutics in NATURE MEDICINE

2001-11-13. Analysis of the Cell Cycle in Mouse Embryonic Stem Cells in EMBRYONIC STEM CELLS

Journal

TITLE

Gene Therapy

ISSUE

VOLUME

Subjects

FOR: Genetics

FOR: Biological Sciences

MESH: Actins

MESH: Animals

MESH: Cell Differentiation

MESH: Cell Line

MESH: Embryonic Stem Cells

MESH: Enhancer Elements, Genetic

MESH: Flow Cytometry

MESH: Genetic Engineering

MESH: Genetic Therapy

MESH: Genetic Vectors

MESH: Heart Failure

MESH: Humans

MESH: Lentivirus

MESH: Mice

MESH: Myocytes, Cardiac

MESH: Promoter Regions, Genetic

MESH: Transduction, Genetic

MESH: Troponin I

Related Patents

Modulation Of Cardiac Stem-Progenitor Cell Differentiation, Assays And Uses Thereof

Identifiers

URI

http://scigraph.springernature.com/pub.10.1038/sj.gt.3303017

DOI

http://dx.doi.org/10.1038/sj.gt.3303017

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1010306179

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/18033312

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