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Prevention of cardiolipin oxidation and fatty acid cycling as two antioxidant mechanisms of cationic derivatives of plastoquinone (SkQs).

Authors :
Skulachev VP
Antonenko YN
Cherepanov DA
Chernyak BV
Izyumov DS
Khailova LS
Klishin SS
Korshunova GA
Lyamzaev KG
Pletjushkina OY
Roginsky VA
Rokitskaya TI
Severin FF
Severina II
Simonyan RA
Skulachev MV
Sumbatyan NV
Sukhanova EI
Tashlitsky VN
Trendeleva TA
Vyssokikh MY
Zvyagilskaya RA
Source :
Biochimica et biophysica acta [Biochim Biophys Acta] 2010 Jun-Jul; Vol. 1797 (6-7), pp. 878-89. Date of Electronic Publication: 2010 Mar 20.
Publication Year :
2010

Abstract

The present state of the art in studies on the mechanisms of antioxidant activities of mitochondria-targeted cationic plastoquinone derivatives (SkQs) is reviewed. Our experiments showed that these compounds can operate as antioxidants in two quite different ways, i.e. (i) by preventing peroxidation of cardiolipin [Antonenko et al., Biochemistry (Moscow) 73 (2008) 1273-1287] and (ii) by fatty acid cycling resulting in mild uncoupling that inhibits the formation of reactive oxygen species (ROS) in mitochondrial State 4 [Severin et al. Proc. Natl. Acad. Sci. USA 107 (2009), 663-668]. The quinol and cationic moieties of SkQ are involved in cases (i) and (ii), respectively. In case (i) SkQH2 interrupts propagation of chain reactions involved in peroxidation of unsaturated fatty acid residues in cardiolipin, the formed SkQ- being reduced back to SkQH2 by heme bH of complex III in an antimycin-sensitive way. Molecular dynamics simulation showed that there are two stable conformations of SkQ1 with the quinol residue localized near peroxyl radicals at C9 or C13 of the linoleate residue in cardiolipin. In mechanism (ii), fatty acid cycling mediated by the cationic SkQ moiety is involved. It consists of (a) transmembrane movement of the fatty acid anion/SkQ cation pair and (b) back flows of free SkQ cation and protonated fatty acid. The cycling results in a protonophorous effect that was demonstrated in planar phospholipid membranes and liposomes. In mitochondria, the cycling gives rise to mild uncoupling, thereby decreasing membrane potential and ROS generation coupled to reverse electron transport in the respiratory chain. In yeast cells, dodecyltriphenylphosphonium (capital ES, Cyrillic12TPP), the cationic part of SkQ1, induces uncoupling that is mitochondria-targeted since capital ES, Cyrillic12TPP is specifically accumulated in mitochondria and increases the H+ conductance of their inner membrane. The conductance of the outer cell membrane is not affected by capital ES, Cyrillic12TPP.<br /> (Copyright © 2010 Elsevier B.V. All rights reserved.)

Details

Language :
English
ISSN :
0006-3002
Volume :
1797
Issue :
6-7
Database :
MEDLINE
Journal :
Biochimica et biophysica acta
Publication Type :
Academic Journal
Accession number :
20307489
Full Text :
https://doi.org/10.1016/j.bbabio.2010.03.015