Human antigen R as a therapeutic target in pathological cardiac hypertrophy
Lisa C. Green, Sarah R. Anthony, Samuel Slone, Lindsey Lanzillotta, Michelle L. Nieman, Xiaoqing Wu, Nathan Robbins, Shannon M. Jones, Sudeshna Roy, A. Phillip Owens III, Jeffrey Aube, Liang Xu, John N. Lorenz, Burns C. Blaxall, Jack Rubinstein, Joshua B. Benoit, Michael Tranter
Lisa C. Green, Sarah R. Anthony, Samuel Slone, Lindsey Lanzillotta, Michelle L. Nieman, Xiaoqing Wu, Nathan Robbins, Shannon M. Jones, Sudeshna Roy, A. Phillip Owens III, Jeffrey Aube, Liang Xu, John N. Lorenz, Burns C. Blaxall, Jack Rubinstein, Joshua B. Benoit, Michael Tranter
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Research Article Cardiology Cell biology

Human antigen R as a therapeutic target in pathological cardiac hypertrophy

Abstract

RNA binding proteins represent an emerging class of proteins with a role in cardiac dysfunction. We show that activation of the RNA binding protein human antigen R (HuR) is increased in the failing human heart. To determine the functional role of HuR in pathological cardiac hypertrophy, we created an inducible cardiomyocyte-specific HuR-deletion mouse and showed that HuR deletion reduces left ventricular hypertrophy, dilation, and fibrosis while preserving cardiac function in a transverse aortic constriction (TAC) model of pressure overload–induced hypertrophy. Assessment of HuR-dependent changes in global gene expression suggests that the mechanistic basis for this protection occurs through a reduction in fibrotic signaling, specifically through a reduction in TGF-β (Tgfb) expression. Finally, pharmacological inhibition of HuR at a clinically relevant time point following the initial development of pathological hypertrophy after TAC also yielded a significant reduction in pathological progression, as marked by a reduction in hypertrophy, dilation, and fibrosis and preserved function. In summary, this study demonstrates a functional role for HuR in the progression of pressure overload–induced cardiac hypertrophy and establishes HuR inhibition as a viable therapeutic approach for pathological cardiac hypertrophy and heart failure.

Authors

Lisa C. Green, Sarah R. Anthony, Samuel Slone, Lindsey Lanzillotta, Michelle L. Nieman, Xiaoqing Wu, Nathan Robbins, Shannon M. Jones, Sudeshna Roy, A. Phillip Owens III, Jeffrey Aube, Liang Xu, John N. Lorenz, Burns C. Blaxall, Jack Rubinstein, Joshua B. Benoit, Michael Tranter

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Figure 6

HuR mediates the development of cardiac fibrosis.

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HuR mediates the development of cardiac fibrosis. (A) Expression of gene...
(A) Expression of genes associated with tissue development/fibrosis that are differentially regulated in iCM-HuR–/– mice based on those identified in Figure 4E. Percent following bars in expressional recovery in iCM-HuR–/– compared with control during TAC. (B) Western blot for periostin protein expression from cardiac tissue isolated from control or iCM-HuR–/– mice 8 weeks after TAC or sham surgery. GAPDH protein expression serves as the loading control. (C) DAB staining of HuR (brown) alongside Masson’s trichrome staining (blue indicative of fibrotic regions) of serial sections of the heart of a WT mouse 8 weeks after TAC. (D) TGF-β mRNA expression levels in response to a hypertrophic stimulus (Phenylepherine; PE) in the presence/absence of HuR determined by performing qPCR on RNA isolated from cultured neonatal rat ventricular myocytes with HuR siRNA/control siRNA; n ≥ 3 replicates per treatment. (E) qPCR qualitative measure of Tgfb RNA eluted using a HuR antibody or a goat anti–rabbit IgG control in the presence and absence of a HuR inhibitor; representative n = 1. (F) qPCR quantification of Tgfb mRNA after treatment with vehicle, Actinomycin D (Act D), or Actinomycin D + HuR inhibitor; n = 6. (G) TAC-dependent transcripts associated with positive regulation of TGF-β (GO: 0071560) signaling based on Supplemental Table 2. Blue represents recovery following HuR deletion. For D, a 2-way ANOVA was performed. *P <0.05 and **P <0.01 for indicated comparisons. Data are shown as means ± SEM.