BET bromodomain inhibition attenuates cardiac phenotype in myocyte-specific lamin A/C–deficient mice
Gaelle Auguste, … , Priyatansh Gurha, Ali J. Marian
Gaelle Auguste, … , Priyatansh Gurha, Ali J. Marian
Published June 2, 2020
Citation Information: J Clin Invest. 2020;130(9):4740-4758. https://doi.org/10.1172/JCI135922.
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Research Article Cardiology

BET bromodomain inhibition attenuates cardiac phenotype in myocyte-specific lamin A/C–deficient mice

Abstract

Mutation in the LMNA gene, encoding lamin A/C, causes a diverse group of diseases called laminopathies. Cardiac involvement is the major cause of death and manifests as dilated cardiomyopathy, heart failure, arrhythmias, and sudden death. There is no specific therapy for LMNA-associated cardiomyopathy. We report that deletion of Lmna in cardiomyocytes in mice leads to severe cardiac dysfunction, conduction defect, ventricular arrhythmias, fibrosis, apoptosis, and premature death within 4 weeks. The phenotype is similar to LMNA-associated cardiomyopathy in humans. RNA sequencing, performed before the onset of cardiac dysfunction, led to identification of 2338 differentially expressed genes (DEGs) in Lmna-deleted cardiomyocytes. DEGs predicted activation of bromodomain-containing protein 4 (BRD4), a regulator of chromatin-associated proteins and transcription factors, which was confirmed by complementary approaches, including chromatin immunoprecipitation sequencing. Daily injection of JQ1, a specific BET bromodomain inhibitor, partially reversed the DEGs, including those encoding secretome; improved cardiac function; abrogated cardiac arrhythmias, fibrosis, and apoptosis; and prolonged the median survival time 2-fold in the myocyte-specific Lmna-deleted mice. The findings highlight the important role of LMNA in cardiomyocytes and identify BET bromodomain inhibition as a potential therapeutic target in LMNA-associated cardiomyopathy, for which there is no specific effective therapy.

Authors

Gaelle Auguste, Leila Rouhi, Scot J. Matkovich, Cristian Coarfa, Matthew J. Robertson, Grazyna Czernuszewicz, Priyatansh Gurha, Ali J. Marian

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Figure 2

Cardiac phenotype in 3-week-old WT, Myh6-Cre LmnaW/F, and Myh6-Cre LmnaF/F mice.

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Cardiac phenotype in 3-week-old WT, Myh6-Cre LmnaW/F, and Myh6-Cre LmnaF...
(A) Selected echocardiographic parameters showing left ventricular end-diastolic diameter (LVEDD), left ventricular end-systolic diameter (LVESD), left ventricular end-systolic diameter indexed to body weight (LVESDi), left ventricular fractional shortening (LVFS), and left ventricular mass indexed to body weight (LVMi) in 3-week-old WT (n = 13), Myh6-Cre LmnaW/F (n = 12), and Myh6-Cre LmnaF/F (n = 17) mice. P values shown were obtained using ordinary 1-way ANOVA and Bonferroni’s post hoc test for comparisons of the LVEDD, LVESDi, and LVMi, and Kruskal-Wallis and Dunn’s post hoc test for comparisons for LVESD and LVFS. (B) Selected representative surface ECG recordings showing third-degree atrioventricular block (no association between P and QRS waves) and ventricular tachycardia observed in the Myh6-Cre LmnaW/F (n = 19) and Myh6-Cre LmnaF/F mice (n = 19). (C and D) Masson’s trichrome–stained (top panel) and Picrosirius red–stained (bottom panel) representative myocardial sections in 3-week-old WT, Myh6-Cre LmnaW/F, and Myh6-Cre LmnaF/F mice. (E) Corresponding quantitative data on percentage collagen volume fraction (CVF) in myocardial sections in the WT (n = 4), Myh6-Cre LmnaW/F (n = 5), and Myh6-Cre LmnaF/F (n = 7) mice. (F) TUNEL-stained thin myocardial sections in 3-week-old WT, Myh6-Cre LmnaW/F, and Myh6-Cre LmnaF/F mice. TUNEL-positive cells are shown in green and nuclei, counterstained with DAPI, in blue. (G) Quantitative data showing percentage of TUNEL-positive nuclei in the WT (n = 5), Myh6-Cre LmnaW/F (n = 5), and Myh6-Cre LmnaF/F (n = 6) mice. P values shown in E and G were calculated using ordinary 1-way ANOVA and Tukey’s post hoc test.