Na(+)-Ca(2+) exchanger overexpression predisposes to reactive oxygen species-induced injury |
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Authors: | Wagner Stefan Seidler Tim Picht Eckard Maier Lars S Kazanski Victor Teucher Nils Schillinger Wolfgang Pieske Burkert Isenberg Gerrit Hasenfuss Gerd Kögler Harald |
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Affiliation: | Department of Cardiology and Pneumology, Georg-August-University G?ttingen, Robert-Koch-Str 40, D-37075 G?ttingen, Germany. |
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Abstract: | OBJECTIVE: In heart failure (HF), the generation of reactive oxygen species (ROS) is enhanced. It was shown that failing cardiac myocytes are more susceptible to ROS-induced damage, possibly due to increased expression of the sarcolemmal Na-Ca exchanger (NCX). METHODS: We investigated the consequences of increased expression levels of NCX in adult rabbit ventricular cardiomyocytes (via adenovirus-mediated gene transfer, Ad-NCX1-GFP) with respect to tolerance towards ROS. After 48-h incubation, cells were monitored for morphological changes on an inverted microscope. ROS were generated via hydrogen peroxide (H(2)O(2)) (100 micromol/l) and Fe(3+)/nitrilotriacetate (Fe(3+)/NTA, 100/200 micromol/l) for 4 min and cell morphology was followed over 30 min. [Na(+)](i) and [Ca(2+)](i) in native cells were measured using SBFI-AM and Indo1-AM, respectively. RESULTS: In native myocytes, exposure to ROS induced hypercontracture. This was accompanied by a 1.3-fold increase in diastolic Indo1 fluorescence ratio (P<0.05). Overexpression of NCX significantly enhanced development of hypercontracture. After 15 min, the percentage of cells that had undergone hypercontracture (F(hyper)) was 85+/-4% vs. only 44+/-10% in control cells (P<0.05). Inhibition of NCX-mediated Ca(2+) entry with KB-R7943 (5 micromol/l) reduced F(hyper) to 33+/-11% (P<0.05). [Na(+)](i) was increased 2.9-fold 1 min prior to hypercontracture (P<0.05). CONCLUSIONS: ROS-induced hypercontracture is due to Ca(2+) entry via NCX which could be triggered by a concomitant substantial increase in [Na(+)](i). Elevated NCX levels predispose to ROS-induced injury, a mechanism likely contributing to myocyte dysfunction and death in heart failure. |
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