Modulation of adverse cardiac remodeling by STARS, a mediator of MEF2 signaling and SRF activity
Koichiro Kuwahara, … , Rhonda Bassel-Duby, Eric N. Olson
Koichiro Kuwahara, … , Rhonda Bassel-Duby, Eric N. Olson
Published May 1, 2007
Citation Information: J Clin Invest. 2007;117(5):1324-1334. https://doi.org/10.1172/JCI31240.
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Research Article Cardiology

Modulation of adverse cardiac remodeling by STARS, a mediator of MEF2 signaling and SRF activity

Abstract

Cytoskeletal proteins have been implicated in the pathogenesis of cardiomyopathy, but how the cytoskeleton influences the transcriptional alterations associated with adverse cardiac remodeling remains unclear. Striated muscle activator of Rho signaling (STARS) is a muscle-specific actin-binding protein localized to the Z disc that activates serum response factor–dependent (SRF-dependent) transcription by inducing nuclear translocation of the myocardin-related SRF coactivators MRTF-A and -B. We show that STARS expression is upregulated in mouse models of cardiac hypertrophy and in failing human hearts. A conserved region of the STARS promoter containing an essential binding site for myocyte enhancer factor–2 (MEF2), a stress-responsive transcriptional activator, mediates cardiac expression of STARS, which in turn activates SRF target genes. Forced overexpression of STARS in the heart sensitizes the heart to pressure overload and calcineurin signaling, resulting in exaggerated deterioration in cardiac function in response to these hypertrophic stimuli. These findings suggest that STARS modulates the responsiveness of the heart to stress signaling by functioning as a cytoskeletal intermediary between MEF2 and SRF.

Authors

Koichiro Kuwahara, Gordon C. Teg Pipes, John McAnally, James A. Richardson, Joseph A. Hill, Rhonda Bassel-Duby, Eric N. Olson

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Figure 4

Regulation of the STARS promoter by MEF2.

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Regulation of the STARS promoter by MEF2. (A) STARS mRNA...
(A) STARS mRNA expression in wild-type, Mef2c+/–, and Mef2c–/– embryos at E8.5 (n = 3). (B) Sequences of mouse and human M1 region aligned with MEF2 consensus binding site. Sequences are on the opposite strand relative to those in Figure 2F. (C) Gel mobility shift assay using in vitro translated myc-tagged MEF2C with radiolabeled STARS M1 DNA sequence or desmin MEF2-binding site as probe. Nonlabeled M1, desmin MEF2, or an unrelated NFAT consensus site was used as competitor (+ denotes 100-fold excess; ++ denotes 500-fold excess). Anti-myc antibody (Myc-Ab) was used to supershift the MEF2 complex. (D and E) Luciferase activity in COS-1 cells (D) and cardiomyocytes (E) cotransfected with luciferase reporters linked to multimerized M1 region (3×M1-luc), multimerized M2 region (3×M2-luc), or minimum TATA alone (p-luc) and MEF2C expression vector.