Proapoptotic Rassf1A/Mst1 signaling in cardiac fibroblasts is protective against pressure overload in mice
Dominic P. Del Re, … , Louise Van Der Weyden, Junichi Sadoshima
Dominic P. Del Re, … , Louise Van Der Weyden, Junichi Sadoshima
Published September 20, 2010
Citation Information: J Clin Invest. 2010;120(10):3555-3567. https://doi.org/10.1172/JCI43569.
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Research Article Cardiology

Proapoptotic Rassf1A/Mst1 signaling in cardiac fibroblasts is protective against pressure overload in mice

Abstract

Mammalian sterile 20-like kinase 1 (Mst1) is a mammalian homolog of Drosophila Hippo, the master regulator of cell death, proliferation, and organ size in flies. It is the chief component of the mammalian Hippo pathway and promotes apoptosis and inhibits compensatory cardiac hypertrophy, playing a critical role in mediating heart failure. How Mst1 is regulated, however, remains unclear. Using genetically altered mice in which expression of the tumor suppressor Ras-association domain family 1 isoform A (Rassf1A) was modulated in a cell type–specific manner, we demonstrate here that Rassf1A is an endogenous activator of Mst1 in the heart. Although the Rassf1A/Mst1 pathway promoted apoptosis in cardiomyocytes, thereby playing a detrimental role, the same pathway surprisingly inhibited fibroblast proliferation and cardiac hypertrophy through both cell-autonomous and autocrine/paracrine mechanisms, playing a protective role during pressure overload. In cardiac fibroblasts, the Rassf1A/Mst1 pathway negatively regulated TNF-α, a key mediator of hypertrophy, fibrosis, and resulting cardiac dysfunction. These results suggest that the functional consequence of activating the proapoptotic Rassf1A/Mst1 pathway during pressure overload is cell type dependent in the heart and that suppressing this mechanism in cardiac fibroblasts could be detrimental.

Authors

Dominic P. Del Re, Takahisa Matsuda, Peiyong Zhai, Shumin Gao, Geoffrey J. Clark, Louise Van Der Weyden, Junichi Sadoshima

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Figure 1

Rassf1A exacerbates pressure overload–induced cardiac dysfunction.

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Rassf1A exacerbates pressure overload–induced cardiac dysfunction. TAC w...
TAC was performed to generate pressure overload for 4 weeks (A, B, and GM), 1 week (E and F), or as indicated (C and D). (A) Representative immunoblot demonstrating increased Mst1 phosphorylation in Rassf1A TG (SF1A TG) versus NTG hearts. S, sham; T, TAC. (B) Quantification of immunoblot results (n = 3). Values are relative to sham-operated NTG. (C) Representative immunoblot of Rassf1A protein expression in adult mouse heart after 1, 3, 7, and 14 day TAC versus sham operation. (D) Quantification of immunoblot results (n = 3). (E) Quantitative PCR results from cardiac tissue demonstrated upregulation of rassf1A, but not rassf1C, mRNA after 1 week TAC. (F) Representative immunoprecipitation of Mst1 from cardiac tissue showed interaction between endogenous Rassf1A and Mst1 in response to pressure overload. (G) LVW/TL showed no significant difference between NTG and TG groups. (H) Cardiomyocyte cross-sectional area; values are relative to sham-operated NTG. (I) Wheat germ agglutinin–stained representative images showed no difference in area between NTG and TG groups. (J) Fibrosis was assessed by Masson trichrome staining and fibrotic area determined. (K) Representative images show a marked increase in fibrosis in TG versus NTG hearts after pressure overload. (L) Increased cardiomyocyte apoptosis in TG versus NTG hearts after pressure overload, as determined by TUNEL staining. (M) Echocardiographic analysis of hearts. Data are mean ± SEM; numbers within bars denote n. *P < 0.05. Scale bars: 100 μm.