• Title of article

    Interactions of two O-phosphorylresveratrol derivatives with model membranes

  • Author/Authors

    Sciacca، نويسنده , , Michele F.M. and Chillemi، نويسنده , , Rosa and Sciuto، نويسنده , , Sebastiano and Pappalardo، نويسنده , , Matteo and La Rosa، نويسنده , , Carmelo and Grasso، نويسنده , , Domenico and Milardi، نويسنده , , Danilo، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2012
  • Pages
    6
  • From page
    111
  • To page
    116
  • Abstract
    The hydrosoluble resveratrol derivative 3-O-phosphorylresveratrol was shown to be more cytotoxic against DU 145 prostate cancer cells than its analog 4′-O-phosphorylresveratrol. In an attempt to unveil the molecular determinants that lye at the root of their different biological effects, here we investigate the interactions of the two resveratrol derivatives with DMPC model membranes by using DSC, membrane permeation/poration assays and molecular dynamics. The results show that the 3-O-derivative interacts with DMPC membranes and diffuses across them. The 4′-O-derivative lies preferentially onto the surface of membrane. The MD simulations provide a molecular interpretation of the experiments and highlight that, in order to maximize the apolar interactions, the 3-O-derivative is embedded in the lipid hydrophobic region. This topographical position of the 3-O resveratrol analog perturbs the liquid–crystalline order of the lipid bilayer promoting membrane curvature and partial lipid loss from the vesicle. This finding reconciles with the lowering of the enthalpy of the lipid phase transition and the ability of the molecule to diffuse across membranes. The present data contribute to explain the different biological activity of the two molecules and evidence that membrane permeability is a key requirement for effective design of resveratrol derivatives to be used for therapeutic purposes.
  • Keywords
    Resveratrol derivatives , Model membranes , fluorescence , DSC , Molecular dynamics
  • Journal title
    Archives of Biochemistry and Biophysics
  • Serial Year
    2012
  • Journal title
    Archives of Biochemistry and Biophysics
  • Record number

    1603502