Cardiac fibrosis and chronic inflammation are common complications in type 2 diabetes mellitus (T2D). Since nucleotide oligomerization-binding domain 1 (NOD1), an innate immune receptor, is involved in the pathogenesis of insulin resistance and diabetes outcomes, we sought to investigate its involvement in cardiac fibrosis. Here, we show that selective staining of cardiac fibroblasts from T2D (db/db;db) mice exhibits up-regulation and activation of the NOD1 pathway, resulting in enhanced NF-κB and TGF-β signalling. Activation of the TGF-β pathway in cardiac fibroblasts from db mice was prevented after inhibition of NF-κB with BAY-11-7082 (BAY). Moreover, fibrosis progression in db mice was also prevented by BAY treatment. Enhanced TGF-β signalling and cardiac fibrosis of db mice was dependent, at least in part, on the sequential activation of NOD1 and NF-κB since treatment of db mice with a selective NOD1 agonist induced activation of the TGF-β pathway, but co-administration of a NOD1 agonist plus BAY, or a NOD1 inhibitor prevented the NOD1-induced fibrosis. Therefore, NOD1 is involved in cardiac fibrosis associated with diabetes, and establishes a new mechanism for the development of heart fibrosis linked to T2D.
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The picture shows a fluorescence immunohistochemistry image identifying GFAP (green), actin (red) and nuclei (blue) in E15 derived primary mouse astrocytes. For more information please see pp. 333–355. Image provided by Dr. Christopher Ugbode.
NOD1 activation in cardiac fibroblasts induces myocardial fibrosis in a murine model of type 2 diabetes
Almudena Val-Blasco, Patricia Prieto, Silvia Gonzalez-Ramos, Gemma Benito, María Teresa Vallejo-Cremades, Ivette Pacheco, Pilar González-Peramato, Noelia Agra, Verónica Terrón, Carmen Delgado, Paloma Martín-Sanz, Lisardo Boscá, María Fernández-Velasco; NOD1 activation in cardiac fibroblasts induces myocardial fibrosis in a murine model of type 2 diabetes. Biochem J 1 February 2017; 474 (3): 399–410. doi: https://doi.org/10.1042/BCJ20160556
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