Fog2 is critical for cardiac function and maintenance of coronary vasculature in the adult mouse heart
Bin Zhou, Qing Ma, Sek Won Kong, Yongwu Hu, Patrick H. Campbell, Francis X. McGowan, Kate G. Ackerman, Bingruo Wu, Bin Zhou, Sergei G. Tevosian, William T. Pu
Bin Zhou, Qing Ma, Sek Won Kong, Yongwu Hu, Patrick H. Campbell, Francis X. McGowan, Kate G. Ackerman, Bingruo Wu, Bin Zhou, Sergei G. Tevosian, William T. Pu
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Research Article Cardiology

Fog2 is critical for cardiac function and maintenance of coronary vasculature in the adult mouse heart

Abstract

Aberrant transcriptional regulation contributes to the pathogenesis of both congenital and adult forms of heart disease. While the transcriptional regulator friend of Gata 2 (FOG2) is known to be essential for heart morphogenesis and coronary development, its tissue-specific function has not been previously investigated. Additionally, little is known about the role of FOG2 in the adult heart. Here we used spatiotemporally regulated inactivation of Fog2 to delineate its function in both the embryonic and adult mouse heart. Early cardiomyocyte-restricted loss of Fog2 recapitulated the cardiac and coronary defects of the Fog2 germline murine knockouts. Later cardiomyocyte-restricted loss of Fog2 (Fog2MC) did not result in defects in cardiac structure or coronary vessel formation. However, Fog2MC adult mice had severely depressed ventricular function and died at 8–14 weeks. Fog2MC adult hearts displayed a paucity of coronary vessels, associated with myocardial hypoxia, increased cardiomyocyte apoptosis, and cardiac fibrosis. Induced inactivation of Fog2 in the adult mouse heart resulted in similar phenotypes, as did ablation of the FOG2 interaction with the transcription factor GATA4. Loss of the FOG2 or FOG2-GATA4 interaction altered the expression of a panel of angiogenesis-related genes. Collectively, our data indicate that FOG2 regulates adult heart function and coronary angiogenesis.

Authors

Bin Zhou, Qing Ma, Sek Won Kong, Yongwu Hu, Patrick H. Campbell, Francis X. McGowan, Kate G. Ackerman, Bingruo Wu, Bin Zhou, Sergei G. Tevosian, William T. Pu

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Figure 8

Fog2 regulation of angiogenesis.

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Fog2 regulation of angiogenesis. (A) Relative expression of genes encodi...
(A) Relative expression of genes encoding secreted angiogenesis-related factors in Fog2MC heart apex compared with controls. Gene expression was measured by qRT-PCR. n = 8 per group. Thbs, thrombospondin 1; Timp1, tissue inhibitor of metalloproteinase 1; Hpse, heparanase; Col4a3, collagen, type IV, α 3; Col15a, collagen, type XV, α 1; Col18a, collagen, type XVIII, α 1; Ctgf, connective tissue growth factor; Fn1, fibronectin 1. (B) Relative expression of genes encoding secreted angiogenesis-related factors in Gata4ki–MC heart apex (n = 7) compared with controls (n = 9). (C) Depletion of Fog2 in cultured mouse neonatal cardiomyocytes. Fog2fl/fl cardiomyocytes treated with Cre adenovirus showed reduced FOG2 immunoreactivity (white arrowheads), while FOG2 was readily detected after treatment with control LacZ adenovirus (yellow arrowheads). (D) Relative expression of Fog2, as assessed by qRT-PCR. Cre strongly reduced Fog2 expression compared with LacZ. (E) Representative images of tubule formation by HUVECs plated on matrigel and cocultured with Cre or LacZ virus–treated Fog2fl/fl cardiomyocytes. (F) Fog2fl/fl cardiomyocytes stimulated less HUVEC tubule formation after Cre treatment than after LacZ treatment. n = 3. (G) BrdU staining of PECAM+ HUVECs cocultured with cardiomyocytes (sarcomeric α actinin [Actn2]). Scale bar: 20 μm. (H) The percentage of BrdU+ cells in HUVECs cocultured with Fog2fl/fl cardiomyocytes that have been treated with Cre or LacZ adenovirus (n = 5). *P < 0.05.