AI Article Synopsis
- The study reveals a new mechanism by which β-Amyloid induces toxicity in mammalian cells through the phosphorylation of p66shc and activation of MKK6.
- The phosphorylation of p66shc at serine 36 and the activation of MKK6 involve reactive oxygen species (ROS) generation, which is linked to cell death.
- Antioxidant treatment and knock-down of MKK6 or p66shc help reduce ROS production and protect cells from β-Amyloid-induced apoptotic death, highlighting the importance of the MKK6-p66shc complex in this process.
Article Abstract
We have previously shown the involvement of p66shc in mediating apoptosis. Here, we demonstrate the novel mechanism of β-Amyloid-induced toxicity in the mammalian cells. β-Amyloid leads to the phosphorylation of p66shc at the serine 36 residue and activates MKK6, by mediating the phosphorylation at serine 207 residue. Treatment of cells with antioxidants blocks β-Amyloid-induced serine phosphorylation of MKK6, reactive oxygen species (ROS) generation, and hence protected cells against β-Amyloid-induced cell death. Our results indicate that serine phosphorylation of p66shc is carried out by active MKK6. MKK6 knock-down resulted in decreased serine 36 phosphorylation of p66shc. Co-immunoprecipitation results demonstrate a direct physical association between p66shc and WT MKK6, but not with its mutants. Increase in β-Amyloid-induced ROS production was observed in the presence of MKK6 and p66shc, when compared to triple mutant of MKK6 (inactive) and S36 mutant of p66shc. ROS scavengers and knock-down against p66shc, and MKK6 significantly decreased the endogenous level of active p66shc, ROS production, and cell death. Finally, we show that the MKK6-p66shc complex mediates β-Amyloid-evoked apoptotic cell death.
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| http://dx.doi.org/10.1007/s12017-013-8268-4 | DOI Listing |
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