Literature DB >> 28878116

Inhibition of NADPH oxidase 2 (NOX2) prevents sepsis-induced cardiomyopathy by improving calcium handling and mitochondrial function.

Leroy C Joseph1, Dimitra Kokkinaki2,3, Mesele-Christina Valenti2, Grace J Kim1, Emanuele Barca4,5, Dhanendra Tomar6, Nicholas E Hoffman6, Prakash Subramanyam7, Henry M Colecraft7, Michio Hirano4, Adam J Ratner8, Muniswamy Madesh6, Konstantinos Drosatos2, John P Morrow1.   

Abstract

Cardiomyopathy frequently complicates sepsis and is associated with increased mortality. Increased cardiac oxidative stress and mitochondrial dysfunction have been observed during sepsis, but the mechanisms responsible for these abnormalities have not been determined. We hypothesized that NADPH oxidase 2 (NOX2) activation could be responsible for sepsis-induced oxidative stress and cardiomyopathy. Treatment of isolated adult mouse cardiomyocytes with low concentrations of the endotoxin lipopolysaccharide (LPS) increased total cellular reactive oxygen species (ROS) and mitochondrial superoxide. Elevated mitochondrial superoxide was accompanied by depolarization of the mitochondrial inner membrane potential, an indication of mitochondrial dysfunction, and mitochondrial calcium overload. NOX2 inhibition decreased LPS-induced superoxide and prevented mitochondrial dysfunction. Further, cardiomyocytes from mice with genetic ablation of NOX2 did not have LPS-induced superoxide or mitochondrial dysfunction. LPS decreased contractility and calcium transient amplitude in isolated cardiomyocytes, and these abnormalities were prevented by inhibition of NOX2. LPS decreased systolic function in mice, measured by echocardiography. NOX2 inhibition was cardioprotective in 2 mouse models of sepsis, preserving systolic function after LPS injection or cecal ligation and puncture (CLP). These data show that inhibition of NOX2 decreases oxidative stress, preserves intracellular calcium handling and mitochondrial function, and alleviates sepsis-induced systolic dysfunction in vivo. Thus, NOX2 is a potential target for pharmacotherapy of sepsis-induced cardiomyopathy.

Entities:  

Keywords:  Bacterial infections; Cardiology; Cardiovascular disease; Mitochondria

Mesh:

Substances:

Year:  2017        PMID: 28878116      PMCID: PMC5621873          DOI: 10.1172/jci.insight.94248

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


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