Cardiomyocyte expression of PPARγ leads to cardiac dysfunction in mice
Ni-Huiping Son, … , Li-Shin Huang, Ira J. Goldberg
Ni-Huiping Son, … , Li-Shin Huang, Ira J. Goldberg
Published October 1, 2007
Citation Information: J Clin Invest. 2007;117(10):2791-2801. https://doi.org/10.1172/JCI30335.
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Cardiomyocyte expression of PPARγ leads to cardiac dysfunction in mice

Abstract

Three forms of PPARs are expressed in the heart. In animal models, PPARγ agonist treatment improves lipotoxic cardiomyopathy; however, PPARγ agonist treatment of humans is associated with peripheral edema and increased heart failure. To directly assess effects of increased PPARγ on heart function, we created transgenic mice expressing PPARγ1 in the heart via the cardiac α–myosin heavy chain (α-MHC) promoter. PPARγ1-transgenic mice had increased cardiac expression of fatty acid oxidation genes and increased lipoprotein triglyceride (TG) uptake. Unlike in cardiac PPARα-transgenic mice, heart glucose transporter 4 (GLUT4) mRNA expression and glucose uptake were not decreased. PPARγ1-transgenic mice developed a dilated cardiomyopathy associated with increased lipid and glycogen stores, distorted architecture of the mitochondrial inner matrix, and disrupted cristae. Thus, while PPARγ agonists appear to have multiple beneficial effects, their direct actions on the myocardium have the potential to lead to deterioration in heart function.

Authors

Ni-Huiping Son, Tae-Sik Park, Haruyo Yamashita, Masayoshi Yokoyama, Lesley A. Huggins, Kazue Okajima, Shunichi Homma, Matthias J. Szabolcs, Li-Shin Huang, Ira J. Goldberg

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Figure 5

Dilated cardiomyopathy in MHC-PPARγ1 mice.

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Dilated cardiomyopathy in MHC-PPARγ1 mice. (A and B) The heart to body w...
(A and B) The heart to body weight ratio was increased in both MHC-PPARγ1L (n = 11–13) and MHC-PPARγ1H male mice (n = 8–9). (C) Representative photographs of hearts of control and MHC-PPARγ1L male mice. (D) Histological section of H&E-stained cardiac tissue in control and MHC-PPARγ1L male mice. (E and H) Representative echocardiographic images of left ventricle motion in MHC-PPARγ1L and MHC-PPARγ1H mice. Echocardiography showed increased left ventricular systolic dimension (F and I) and reduced fractional shortening (G and J) in both MHC-PPARγ1L and MHC-PPARγ1H mice. FS, fractional shortening; LVDs, left ventricular end-systolic dimension. Data are shown as mean ± SD. *P < 0.05, **P < 0.01, and ***P < 0.001 versus littermate controls.