• Title of article

    Scavenging system efficiency is crucial for cell resistance to ROS-mediated methylglyoxal injury

  • Author/Authors

    Fernanda Amicarelli، نويسنده , , Sabrina Colafarina، نويسنده , , Franca Cattani، نويسنده , , Annamaria Cimini، نويسنده , , Carmine Di Ilio and Michael W Parker، نويسنده , , Maria Paola Ceru، نويسنده , , Michele Miranda، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    16
  • From page
    856
  • To page
    871
  • Abstract
    Methylglyoxal is a reactive dicarbonyl compound endogenously produced mainly from glycolytic intermediates. Recent research indicates that methylglyoxal is a potent growth inhibitor and genotoxic agent. The antiproliferative activity of methylglyoxal has been investigated for pharmacological application in cancer chemotherapy. However, various cells are not equally sensitive to methylglyoxal toxicity. Therefore, it would be important to establish the cellular factors responsible for the different cell-type specific response to methylglyoxal injury, in order to avoid the risk of failure of a therapy based on increasing the intracellular level of methylglyoxal. To this purpose, we comparatively evaluated the signaling transduction pathway elicited by methylglyoxal in human glioblastoma (ADF) and neuroblastoma (SH-SY 5Y) cells. Results show that methylglyoxal causes early and extensive reactive oxygen species generation in both cell lines. However, SH-SY 5Y cells show higher sensitivity to methylglyoxal challenge due to a defective antioxidant and detoxifying ability that, preventing these cells from an efficient scavenging action, elicits extensive caspase-9 dependent apoptosis. These data emphasize the pivotal role of antioxidant and detoxifying systems in determining the grade of sensitivity of cells to methylglyoxal.
  • Keywords
    Methylglyoxal , ROS , Neuroblastoma cells , antioxidant enzymes , Glyoxalase system , glutathione , Apoptosis , PPARs , free radicals , Glioblastoma cells
  • Journal title
    Free Radical Biology and Medicine
  • Serial Year
    2003
  • Journal title
    Free Radical Biology and Medicine
  • Record number

    519597