Abstract

Fibrotic scarring drives the progression of heart failure after myocardial infarction (MI). Therefore, the development of specific treatment regimens to counteract fibrosis is of high clinical relevance. The transcription factor sex-determining region Y box 9 (SOX9) functions as an important regulator during embryogenesis, but recent data point toward an additional causal role in organ fibrosis. We show here that SOX9 is upregulated in the scar after MI in mice. Fibroblast-specific deletion of Sox9 ameliorated MI-induced left ventricular dysfunction, dilatation, and myocardial scarring in vivo. Unexpectedly, deletion of Sox9 also potently eliminated persisting leukocyte infiltration of the scar in the chronic phase after MI. RNA-Seq from the infarct scar revealed that Sox9 deletion in fibroblasts resulted in strongly downregulated expression of genes related to extracellular matrix, proteolysis, and inflammation. Importantly, Sox9 deletion in isolated cardiac fibroblasts in vitro similarly affected gene expression as in the cardiac scar and reduced fibroblast proliferation, migration, and contraction capacity. Together, our data demonstrate that fibroblast SOX9 functions as a master regulator of cardiac fibrosis and inflammation and might constitute a novel therapeutic target during MI.

Authors

Gesine M. Scharf, Katja Kilian, Julio Cordero, Yong Wang, Andrea Grund, Melanie Hofmann, Natali Froese, Xue Wang, Andreas Kispert, Ralf Kist, Simon J. Conway, Robert Geffers, Kai C. Wollert, Gergana Dobreva, Johann Bauersachs, Joerg Heineke

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