Roel van der Nagel scite author profile

MicroRNAs (miRs) are a class of single-stranded, non-coding RNAs of about 22 nucleotides in length. Increasing evidence implicates miRs in myocardial disease processes. Here we show that miR-199b is a direct calcineurin/NFAT target gene that increases in expression in mouse and human heart failure, and targets the nuclear NFAT kinase dual-specificity tyrosine-(Y)-phosphorylation regulated kinase 1a (Dyrk1a), constituting a pathogenic feed forward mechanism that affects calcineurin-responsive gene expression. Mutant mice overexpressing miR-199b, or haploinsufficient for Dyrk1a, are sensitized to calcineurin/NFAT signalling or pressure overload and show stress-induced cardiomegaly through reduced Dyrk1a expression. In vivo inhibition of miR-199b by a specific antagomir normalized Dyrk1a expression, reduced nuclear NFAT activity and caused marked inhibition and even reversal of hypertrophy and fibrosis in mouse models of heart failure. Our results reveal that microRNAs affect cardiac cellular signalling and gene expression, and implicate miR-199b as a therapeutic target in heart failure.

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Sodium current deficit and arrhythmogenesis in a murine model of plakophilin-2 haploinsufficiency

Cerrone

et al. 2012

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PKP2 haploinsufficiency leads to I(Na) deficit in murine hearts. Our data support the notion of a cross-talk between desmosome and sodium channel complex. They also suggest that I(Na) dysfunction may contribute to generation and/or maintenance of arrhythmias in PKP2-deficient hearts. Whether pharmacological challenges could help unveil arrhythmia risk in patients with mutations or variants in PKP2 remains undefined.

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Enhancing calstabin binding to ryanodine receptors improves cardiac and skeletal muscle function in heart failure

Wehrens

Lehnart

Reiken

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

161

151

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Abnormalities in intracellular calcium release and reuptake are responsible for decreased contractility in heart failure (HF). We have previously shown that cardiac ryanodine receptors (RyRs) are protein kinase A-hyperphosphorylated and depleted of the regulatory subunit calstabin-2 in HF. Moreover, similar alterations in skeletal muscle RyR have been linked to increased fatigability in HF. To determine whether restoration of calstabin binding to RyR may ameliorate cardiac and skeletal muscle dysfunction in HF, we treated WT and calstabin-2 ؊/؊ mice subjected to myocardial infarction (MI) with JTV519. JTV519, a 1,4-benzothiazepine, is a member of a class of drugs known as calcium channel stabilizers, previously shown to increase calstabin binding to RyR. Echocardiography at 21 days after MI demonstrated a significant increase in ejection fraction in WT mice treated with JTV519 (45.8 ؎ 5.1%) compared with placebo (31.1 ؎ 3.1%; P < 0.05). Coimmunoprecipitation experiments revealed increased amounts of calstabin-2 bound to the RyR2 channel in JTV519-treated WT mice. However, JTV519 did not show any of these beneficial effects in calstabin-2 ؊/؊ mice with MI. Additionally, JTV519 improved skeletal muscle fatigue in WT and calstabin-2 ؊/؊ mice with HF by increasing the binding of calstabin-1 to RyR1. The observation that treatment with JTV519 improved cardiac function in WT but not calstabin-2 ؊/؊ mice indicates that calstabin-2 binding to RyR2 is required for the beneficial effects in failing hearts. We conclude that JTV519 may provide a specific way to treat the cardiac and skeletal muscle myopathy in HF by increasing calstabin binding to RyR.calcium ͉ FKBP12.6 ͉ myocardial infarction ͉ contractility

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β-Catenin downregulation attenuates ischemic cardiac remodeling through enhanced resident precursor cell differentiation

Zelarayán

Noack

Sekkali

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

130

138

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We analyzed the effect of conditional, ␣MHC-dependent genetic ␤-catenin depletion and stabilization on cardiac remodeling following experimental infarct. ␤-Catenin depletion significantly improved 4-week survival and left ventricular (LV) function (fractional shortening: CT ⌬ex3-6 : 24 ؎ 1.9%; ␤-cat ⌬ex3-6 : 30.2 ؎ 1.6%, P < 0.001). ␤-Catenin stabilization had opposite effects. No significant changes in adult cardiomyocyte survival or hypertrophy were observed in either transgenic line. Associated with the functional improvement, LV scar cellularity was altered: ␤-catenin-depleted mice showed a marked subendocardial and subepicardial layer of small cTnT pos cardiomyocytes associated with increased expression of cardiac lineage markers Tbx5 and GATA4. Using a Cre-dependent lacZ reporter gene, we identified a noncardiomyocyte cell population affected by ␣MHC-driven gene recombination localized to these tissue compartments at baseline. These cells were found to be cardiac progenitor cells since they coexpressed markers of proliferation (Ki67) and the cardiomyocyte lineage (␣MHC, GATA4, Tbx5) but not cardiac Troponin T (cTnT). The cell population overlaps in part with both the previously described c-kit pos and stem cell antigen-1 (Sca-1) pos precursor cell population but not with the Islet-1 pos precursor cell pool. An in vitro coculture assay of highly enriched (>95%) Sca-1 pos cardiac precursor cells from ␤-catenin-depleted mice compared to cells isolated from control littermate demonstrated increased differentiation toward ␣-actin pos and cTnT pos cardiomyocytes after 10 days (CT ⌬ex3-6 : 38.0 ؎ 1.0% ␣-actin pos ; ␤-cat ⌬ex3-6 : 49.9 ؎ 2.4% ␣-actin pos , P < 0.001). We conclude that ␤-catenin depletion attenuates postinfarct LV remodeling in part through increased differentiation of GATA4 pos /Sca-1 pos resident cardiac progenitor cells. D espite adaptive mechanisms including activation of cardiomyocyte survival pathways and hypertrophy, left ventricular (LV) remodeling often progresses to cardiac dilation and heart failure (1). Recently, the quantitative contribution of endogenous cardiac regeneration was found to account for at least 25% of cardiomyocytes in the infarct border zone (2). However, essential characteristics of this cardiac precursor cell pool, like signaling pathways directing differentiation and/or proliferation, are largely unknown.Transcription factors essential for embryonic cardiac development also affect adult cardiac remodeling in mice (3). Regulation of the Wnt/␤-catenin pathway differentially regulates embryonic cardiac progenitor cells prespecification, renewal, and differentiation in the cardiac mesoderm (4-7). Activation of the Wnt/␤-catenin pathway specifically stimulates Islet-1 cardiac progenitor cells proliferation while delaying differentiation. Conversely, increased expression of Wnt signaling inhibitors in ␣MHC pos cardiac precursor cells isolated from embryoid bodies lead to increased cardiomyocyte differentiation (8).We previously reported that downregulation of ␤-catenin in ...

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