Abstract
The mechanism involved in the endotoxin‐induced myocardial dysfunction is not fully understood. The purpose of the present study was to demonstrate that myocardial dysfunction in endotoxinemia is mediated via an increase in myocyte production of high mobility group box 1 protein (HMGB1). In vivo, mouse model of endotoxinemia in mice was induced by i.p. injection of LPS (10 mg/kg) and myocardial function was evaluated 24 hrs later. LPS induced a decrease in myocardial contractility (end‐systolic and end‐diastolic volume relation). The decrease in myocardial contractility was diminished when the mice were received either a HMGB1 antagonist (A‐box) or an inhibitor of HMGB1 (glycyrrhizic acid). Expression of myocardial HMGB1 was increased in the heart of mice treated with LPS (immunoflorescence staining). Further, recombinant HMGB1 (10–20 μg/mouse, i.p.) resulted in a dose dependent decrease in myocardial contractility. To confirm that the source of HMGB1 was the cardiac myocytes in the hearts, isolated cardiac myocytes were exposed to LPS (10 μg/ml). Treatment of cardiac myocytes with LPS increased in intracellular levels of HMGB1 and release HMGB1 by myocytes to the supernatant (Western). Taken together, our study suggests LPS‐induced myocardial dysfunction is a result of increase in myocyte HMGB1. (CIHR MOP 81303).
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