• S E BIANCHI

      Articles written in Journal of Biosciences

    • Profile of pterostilbene-induced redox homeostasis modulation in cardiac myoblasts and heart tissue

      G K COUTO RO FERNANDES D LACERDA C CAMPOS-CARRARO P TU¨ RCK S E BIANCHI G D FERREIRA I S BRUM V L BASSANI A BELLO´ -KLEIN A S R ARAUJO

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      This study was designed to investigate the effect of pterostilbene (PTS) on cardiac oxidative stress in vitro, as this is asimple and promising methodology to study cardiac disease. Cardiac myoblasts (H9c2 cells) and homogenised cardiactissue were incubated with the PTS and cyclodextrin (PTS + HPβCD) complex for 1 and 24 h, respectively, at concentrationsof 50 μM for the cells and 25 and 50 μM for cardiac tissue. The PTS + HPβCD complex was used to increase thesolubility of PTS in water. After the pretreatment period, cardiomyoblasts were challenged with hydrogen peroxide(6.67 μM) for 10 min, while cardiac tissue was submitted to a hydroxyl radical generator system (30 min). Cellularviability, oxidative stress biomarkers (e.g. total reactive oxygen species (ROS), carbonyl assay and lipoperoxidation) andthe antioxidant response (e.g. sulfhydryl and the antioxidant enzyme activities of superoxide dismutase, catalase andglutathione peroxidase) were evaluated. In cardiomyoblasts, the PTS + HPβCD complex (50 μM) increased cellularviability. Moreover, the PTS + HPβCD complex also significantly increased sulfhydryl levels in the cells submitted to anoxidative challenge. In cardiac tissue, lipid peroxidation, carbonyls and ROS levels were significantly increased in thegroups submitted to oxidative damage, while the PTS + HPβCD complex significantly reduced ROS levels in thesegroups. In addition, the PTS + HPβCD complex also provoked increased catalase activity in both experimental protocols.These data suggest that the PTS + HPβCD complex may play a cardioprotective role through a reduction of ROS levelsassociated with an improved antioxidant response.

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