Modulation of the mitochondrial voltage-dependent anion channel (VDAC) by hydrogen peroxide and its recovery by curcumin.

Chetan Malik, Subhendu Ghosh

European biophysics journal : EBJ 2020 Oct

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The Voltage-Dependent Anion Channel (VDAC) plays a vital role in mitochondria-mediated transport of ions and metabolites. It is well established that mitochondria are a site for production of hydrogen peroxide (H2O2). Excess production of H2O2 is toxic to the cell and causes oxidative stress. Therefore, the effect of H2O2 on the single-channel conductance of VDAC was investigated. In vitro bilayer electrophysiology experiments were performed on VDAC isolated from rat brain mitochondria, which consists predominately of the isoform VDAC1. VDAC was treated with H2O2 on a planar bilayer membrane (BLM). The conductance of VDAC increased upon H2O2 treatment, whereas the same concentration of H2O2 was unable to affect the BLM (without protein) over a long period of time. Subsequently, the sequential addition of curcumin to H2O2-treated VDAC reduced the conductance. Experimental results (bilayer electrophysiology) demonstrate the role of curcumin in the restoration of the activity of VDAC affected by H2O2. In silico docking studies enables identification of the probable binding site of H2O2 on VDAC. We further find that the oligomerization of VDAC that results in its increased conductance is an effect of lipid oxidation by H2O2.

Citation

Chetan Malik, Subhendu Ghosh. Modulation of the mitochondrial voltage-dependent anion channel (VDAC) by hydrogen peroxide and its recovery by curcumin. European biophysics journal : EBJ. 2020 Oct;49(7):661-672