MEF2 activates a genetic program promoting chamber dilation and contractile dysfunction in calcineurin-induced heart failure

Hypertrophic growth, a risk factor for mortality in heart disease, is driven by reprogramming of cardiac gene expression. Although the transcription factor myocyte enhancer factor-2 (MEF2) is a common end point for several hypertrophic pathways, its precise cardiac gene targets and function in cardi...

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Published in:Circulation (New York, N.Y.) N.Y.), 2006-07, Vol.114 (4), p.298-308
Main Authors: VAN OORT, Ralph J, VAN ROOIJ, Eva, BOURAJJAJ, Meriem, SCHIMMEL, Joost, JANSEN, Maurits A, VAN DER NAGEL, Roel, DOEVENDANS, Pieter A, SCHNEIDER, Michael D, VAN ECHTELD, Cees J. A, DE WINDT, Leon J
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Blood and lymphatic vessels
Calcineurin - pharmacology
Cardiology. Vascular system
Cardiomegaly - genetics
Cardiomyopathy, Dilated - etiology
Cardiomyopathy, Dilated - genetics
Diseases of the peripheral vessels. Diseases of the vena cava. Miscellaneous
Drug toxicity and drugs side effects treatment
Gene Expression Profiling
Heart Failure - chemically induced
Heart Failure - physiopathology
Magnetic Resonance Imaging
Medical sciences
MEF2 Transcription Factors
Mice
Mice, Transgenic
Myocardial Contraction
Myogenic Regulatory Factors - genetics
Myogenic Regulatory Factors - physiology
Pharmacology. Drug treatments
Signal Transduction
Toxicity: blood
Toxicity: digestive system
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container_title Circulation (New York, N.Y.)
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creator VAN OORT, Ralph J
VAN ROOIJ, Eva
BOURAJJAJ, Meriem
SCHIMMEL, Joost
JANSEN, Maurits A
VAN DER NAGEL, Roel
DOEVENDANS, Pieter A
SCHNEIDER, Michael D
VAN ECHTELD, Cees J. A
DE WINDT, Leon J
description Hypertrophic growth, a risk factor for mortality in heart disease, is driven by reprogramming of cardiac gene expression. Although the transcription factor myocyte enhancer factor-2 (MEF2) is a common end point for several hypertrophic pathways, its precise cardiac gene targets and function in cardiac remodeling remain to be elucidated. We report the existence of synergistic interactions between the nuclear factor of activated T cells and MEF2 transcription factors triggered by calcineurin signaling. To circumvent the embryonic lethality and mitochondrial deficiency associated with germ-line null mutations for MEF2C and MEF2A respectively, we used conditional transgenesis to express a dominant-negative form of MEF2 in the murine postnatal heart and combined this with magnetic resonance imaging to assess MEF2 transcriptional function in Ca2+/calcineurin-induced cardiac remodeling. Surprisingly, end-diastolic and end-systolic ventricular dimensions and contractility were normalized in the presence of severely hypertrophied left ventricular walls on MEF2 inhibition in calcineurin transgenic mice. In line, we generated lines of transgenic mice expressing MEF2A in the heart, which displayed primarily chamber dilation. Microarray profiling indicated that MEF2 promotes a gene profile functioning primarily to or at the nucleus, cytoskeletal and microtubular networks, and mitochondria. These findings assign a novel function to MEF2 transcription factors in the postnatal heart, where they activate a genetic program that minimally affects cardiac growth yet promotes chamber dilation, mechanical dysfunction, and dilated cardiomyopathy.
doi_str_mv 10.1161/CIRCULATIONAHA.105.608968
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To circumvent the embryonic lethality and mitochondrial deficiency associated with germ-line null mutations for MEF2C and MEF2A respectively, we used conditional transgenesis to express a dominant-negative form of MEF2 in the murine postnatal heart and combined this with magnetic resonance imaging to assess MEF2 transcriptional function in Ca2+/calcineurin-induced cardiac remodeling. Surprisingly, end-diastolic and end-systolic ventricular dimensions and contractility were normalized in the presence of severely hypertrophied left ventricular walls on MEF2 inhibition in calcineurin transgenic mice. In line, we generated lines of transgenic mice expressing MEF2A in the heart, which displayed primarily chamber dilation. Microarray profiling indicated that MEF2 promotes a gene profile functioning primarily to or at the nucleus, cytoskeletal and microtubular networks, and mitochondria. 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ispartof Circulation (New York, N.Y.), 2006-07, Vol.114 (4), p.298-308
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1524-4539
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source EZB-FREE-00999 freely available EZB journals
subjects Animals
Biological and medical sciences
Blood and lymphatic vessels
Calcineurin - pharmacology
Cardiology. Vascular system
Cardiomegaly - genetics
Cardiomyopathy, Dilated - etiology
Cardiomyopathy, Dilated - genetics
Diseases of the peripheral vessels. Diseases of the vena cava. Miscellaneous
Drug toxicity and drugs side effects treatment
Gene Expression Profiling
Heart Failure - chemically induced
Heart Failure - physiopathology
Magnetic Resonance Imaging
Medical sciences
MEF2 Transcription Factors
Mice
Mice, Transgenic
Myocardial Contraction
Myogenic Regulatory Factors - genetics
Myogenic Regulatory Factors - physiology
Pharmacology. Drug treatments
Signal Transduction
Toxicity: blood
Toxicity: digestive system
title MEF2 activates a genetic program promoting chamber dilation and contractile dysfunction in calcineurin-induced heart failure
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