Literature DB >> 24944198

Specific inhibition of HDAC4 in cardiac progenitor cells enhances myocardial repairs.

Ling X Zhang1, Megan DeNicola2, Xin Qin2, Jianfeng Du2, Julio Ma2, Yu Tina Zhao3, Shougang Zhuang1, Paul Y Liu2, Lei Wei4, Gangjian Qin5, Yaoliang Tang6, Ting C Zhao2.   

Abstract

We have recently shown that in vivo inhibition of histone deacetylase (HDAC) stimulates endogenous myocardial regeneration in infarcted hearts (Zhang L et al. J Pharmacol Exp Ther 341: 285-293, 2012). Furthermore, our observation demonstrates that HDAC inhibition promotes cardiogenesis, which is associated with HDAC4 reduction. However, it remains unknown as to whether specific inhibition of HDAC4 modulates cardiac stem cells (CSCs) to facilitate myocardial repair and to preserve cardiac performance. c-kit(+) CSCs were isolated from adult mouse hearts and were transfected with HDAC4 siRNA to knockdown HDAC4 of c-kit(+) CSCs. The transfection of HDAC4 siRNA caused a marked reduction of HDAC4 mRNA and proteins in c-kit(+) CSCs. Mouse myocardial infarction (MI) was created to assess the effect of HDAC4 inhibition in c-kit(+) CSCs on myocardial regeneration in vivo when cells were introduced into MI hearts. Transplantation of HDAC4 siRNA-treated c-kit(+) CSCs into MI hearts improved ventricular function, attenuated ventricular remodeling, and promoted CSC-derived regeneration and neovascularization. Furthermore, Ki67 and BrdU positively proliferative myocytes increased in MI hearts receiving HDAC4 siRNA-treated c-kit(+) CSCs compared with MI hearts engrafted with control siRNA-treated c-kit(+) CSCs. In addition, compared with MI hearts engrafted with control adenoviral GFP-infected c-kit(+) CSCs, MI hearts receiving adenoviral HDAC4-infected c-kit(+) CSCs exhibited attenuated cardiac functional recovery, CSC-derived regeneration, and neovascularization, which was accompanied with adverse ventricular remodeling and decrease in Ki67 and BrdU positively proliferative myocytes. HDAC4 inhibition facilitated c-kit(+) CSCs into the differentiation into cardiac lineage commitments in vitro, while HDAC4 overexpression attenuated c-kit(+) CSC-derived cardiogenesis. Our results indicate that HDAC4 inhibition promotes CSC-derived cardiac regeneration and improves the restoration of cardiac function.
Copyright © 2014 the American Physiological Society.

Entities:  

Keywords:  HDAC4; heart; myocardial infarction; regeneration; stem cells

Mesh:

Substances:

Year:  2014        PMID: 24944198      PMCID: PMC4137141          DOI: 10.1152/ajpcell.00187.2013

Source DB:  PubMed          Journal:  Am J Physiol Cell Physiol        ISSN: 0363-6143            Impact factor:   4.249


  49 in total

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4.  The deacetylase HDAC4 controls myocyte enhancing factor-2-dependent structural gene expression in response to neural activity.

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5.  Protein kinase A-regulated assembly of a MEF2{middle dot}HDAC4 repressor complex controls c-Jun expression in vascular smooth muscle cells.

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6.  Bone marrow cells adopt the cardiomyogenic fate in vivo.

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Authors:  Ting C Zhao; Guangmao Cheng; Ling X Zhang; Yi T Tseng; James F Padbury
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8.  Histone deacetylase degradation and MEF2 activation promote the formation of slow-twitch myofibers.

Authors:  Matthew J Potthoff; Hai Wu; Michael A Arnold; John M Shelton; Johannes Backs; John McAnally; James A Richardson; Rhonda Bassel-Duby; Eric N Olson
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9.  Induction of pluripotent stem cells from primary human fibroblasts with only Oct4 and Sox2.

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10.  Imaging survival and function of transplanted cardiac resident stem cells.

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6.  Glutamine Regulates Cardiac Progenitor Cell Metabolism and Proliferation.

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7.  Nuclear Calcium/Calmodulin-dependent Protein Kinase II Signaling Enhances Cardiac Progenitor Cell Survival and Cardiac Lineage Commitment.

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Review 8.  Roles of the canonical myomiRs miR-1, -133 and -206 in cell development and disease.

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9.  The Epigenetic Regulator HDAC1 Modulates Transcription of a Core Cardiogenic Program in Human Cardiac Mesenchymal Stromal Cells Through a p53-Dependent Mechanism.

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10.  Muscle LIM protein promotes expression of the acetylcholine receptor gamma-subunit gene cooperatively with the myogenin-E12 complex.

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