| First Author | Vendrov AE | Year | 2023 |
| Journal | Redox Biol | Volume | 67 |
| Pages | 102937 | PubMed ID | 37871532 |
| Mgi Jnum | J:348029 | Mgi Id | MGI:7544581 |
| Doi | 10.1016/j.redox.2023.102937 | Citation | Vendrov AE, et al. (2023) Cardiomyocyte NOX4 regulates resident macrophage-mediated inflammation and diastolic dysfunction in stress cardiomyopathy. Redox Biol 67:102937 |
| abstractText | In acute sympathetic stress, catecholamine overload can lead to stress cardiomyopathy. We tested the hypothesis that cardiomyocyte NOX4 (NADPH oxidase 4)-dependent mitochondrial oxidative stress mediates inflammation and diastolic dysfunction in stress cardiomyopathy. Isoproterenol (ISO; 5 mg/kg) injection induced sympathetic stress in wild-type and cardiomyocyte (CM)-specific Nox4 knockout (Nox4(CM-/-)) mice. Wild-type mice treated with ISO showed higher CM NOX4 expression, H(2)O(2) levels, inflammasome activation, and IL18, IL6, CCL2, and TNFalpha levels than Nox4(CM-/-) mice. Spectral flow cytometry and t-SNE analysis of cardiac cell suspensions showed significant increases in pro-inflammatory and pro-fibrotic embryonic-derived resident (CCR2(-)MHCII(hi)CX3CR1(hi)) macrophages in wild-type mice 3 days after ISO treatment, whereas Nox4(CM-/-) mice had a higher proportion of embryonic-derived resident tissue-repair (CCR2(-)MHCII(lo)CX3CR1(lo)) macrophages. A significant increase in cardiac fibroblast activation and interstitial collagen deposition and a restrictive pattern of diastolic dysfunction with increased filling pressure was observed in wild-type hearts compared with Nox4(CM-/-) 7 days post-ISO. A selective NOX4 inhibitor, GKT137831, reduced myocardial mitochondrial ROS, macrophage infiltration, and fibrosis in ISO-injected wild-type mice, and preserved diastolic function. Our data suggest sympathetic overstimulation induces resident macrophage (CCR2(-)MHCII(+)) activation and myocardial inflammation, resulting in fibrosis and impaired diastolic function mediated by CM NOX4-dependent ROS. |
