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Literature DB >> 24565863

Histone deacetylase 3 modulates Tbx5 activity to regulate early cardiogenesis.

Sara L Lewandowski¹, Harish P Janardhan¹, Kevin M Smee¹, Marcos Bachman², Zheng Sun³, Mitchell A Lazar³, Chinmay M Trivedi⁴.

Abstract

Congenital heart defects often result from improper differentiation of cardiac progenitor cells. Although transcription factors involved in cardiac progenitor cell differentiation have been described, the associated chromatin modifiers in this process remain largely unknown. Here we show that mouse embryos lacking the chromatin-modifying enzyme histone deacetylase 3 (Hdac3) in cardiac progenitor cells exhibit precocious cardiomyocyte differentiation, severe cardiac developmental defects, upregulation of Tbx5 target genes and embryonic lethality. Hdac3 physically interacts with Tbx5 and modulates its acetylation to repress Tbx5-dependent activation of cardiomyocyte lineage-specific genes. These findings reveal that Hdac3 plays a critical role in cardiac progenitor cells to regulate early cardiogenesis.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 2014 PMID： 24565863 PMCID： PMC4065153 DOI： 10.1093/hmg/ddu093

Source DB: PubMed Journal: Hum Mol Genet ISSN： 0964-6906 Impact factor: 6.150

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Review 1. Patterning the vertebrate heart.

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2. A WW domain protein TAZ is a critical coactivator for TBX5, a transcription factor implicated in Holt-Oram syndrome.

Authors: Masao Murakami; Masayo Nakagawa; Eric N Olson; Osamu Nakagawa
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3. Serum response factor, an enriched cardiac mesoderm obligatory factor, is a downstream gene target for Tbx genes.

Authors: Matthew R Barron; Narasimhaswamy S Belaguli; Shu Xiang Zhang; Mimi Trinh; Dinaker Iyer; Xanthi Merlo; John W Lough; Michael S Parmacek; Benoit G Bruneau; Robert J Schwartz
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4. Microarray analysis of Tbx5-induced genes expressed in the developing heart.

Authors: Timothy F Plageman; Katherine E Yutzey
Journal: Dev Dyn Date: 2006-10 Impact factor: 3.780

5. The human TBX5 gene mutation database.

Authors: Wolfram Heinritz; Lin Shou; Andre Moschik; Ursula G Froster
Journal: Hum Mutat Date: 2005-10 Impact factor: 4.878

6. Conditional mutagenesis of the murine serum response factor gene blocks cardiogenesis and the transcription of downstream gene targets.

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7. Acetylation of GATA-4 is involved in the differentiation of embryonic stem cells into cardiac myocytes.

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Journal: J Biol Chem Date: 2005-03-13 Impact factor: 5.157

8. Mutations in human TBX5 [corrected] cause limb and cardiac malformation in Holt-Oram syndrome.

Authors: C T Basson; D R Bachinsky; R C Lin; T Levi; J A Elkins; J Soults; D Grayzel; E Kroumpouzou; T A Traill; J Leblanc-Straceski; B Renault; R Kucherlapati; J G Seidman; C E Seidman
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9. GATA4 mutations cause human congenital heart defects and reveal an interaction with TBX5.

Authors: Vidu Garg; Irfan S Kathiriya; Robert Barnes; Marie K Schluterman; Isabelle N King; Cheryl A Butler; Caryn R Rothrock; Reenu S Eapen; Kayoko Hirayama-Yamada; Kunitaka Joo; Rumiko Matsuoka; Jonathan C Cohen; Deepak Srivastava
Journal: Nature Date: 2003-07-06 Impact factor: 49.962

Review 10. TBX5 mutations and congenital heart disease: Holt-Oram syndrome revealed.

Authors: Alessandro D Mori; Benoit G Bruneau
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Review 4. Molecular regulation of cardiomyocyte differentiation.

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Review 5. TBX5: A Key Regulator of Heart Development.

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Review 6. Integrative regulation of physiology by histone deacetylase 3.

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Review 7. Histone deacetylases in modulating cardiac disease and their clinical translational and therapeutic implications.

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Journal: Exp Biol Med (Maywood) Date: 2020-07-29