TY - JOUR
T1 - Specific modification of mitochondrial protein thiols in response to oxidative stress
T2 - a proteomics approach
AU - Lin, Tsu-Kung
AU - Hughes, Gillian
AU - Muratovska, Aleksandra
AU - Blaikie, Frances H
AU - Brookes, Paul S
AU - Darley-Usmar, Victor
AU - Smith, Robin A J
AU - Murphy, Michael P
PY - 2002/5/10
Y1 - 2002/5/10
N2 - Mitochondria play a central role in redox-linked processes in the cell through mechanisms that are thought to involve modification of specific protein thiols, but this has proved difficult to assess. In particular, specific labeling and quantitation of mitochondrial protein cysteine residues have not been achieved due to the lack of reagents available that can be applied to the intact organelle or cell. To overcome these problems we have used a combination of mitochondrial proteomics and targeted labeling of mitochondrial thiols using a novel compound, (4-iodobutyl)triphenylphosphonium (IBTP). This lipophilic cation is accumulated by mitochondria and yields stable thioether adducts in a thiol-specific reaction. The selective uptake into mitochondria, due to the large membrane potential across the inner membrane, and the high pH of the matrix results in specific labeling of mitochondrial protein thiols by IBTP. Individual mitochondrial proteins that changed thiol redox state following oxidative stress could then be identified by their decreased reaction with IBTP and isolated by two-dimensional electrophoresis. We demonstrate the selectivity of IBTP labeling and use it to show that glutathione oxidation and exposure to an S-nitrosothiol or to peroxynitrite cause extensive redox changes to mitochondrial thiol proteins. In conjunction with blue native gel electrophoresis, we used IBTP labeling to demonstrate that thiols are exposed on the matrix faces of respiratory Complexes I, II, and IV. This novel approach enables measurement of the thiol redox state of individual mitochondrial proteins during oxidative stress and cell death. In addition the methodology has the potential to identify novel redox-dependent modulation of mitochondrial proteins.
AB - Mitochondria play a central role in redox-linked processes in the cell through mechanisms that are thought to involve modification of specific protein thiols, but this has proved difficult to assess. In particular, specific labeling and quantitation of mitochondrial protein cysteine residues have not been achieved due to the lack of reagents available that can be applied to the intact organelle or cell. To overcome these problems we have used a combination of mitochondrial proteomics and targeted labeling of mitochondrial thiols using a novel compound, (4-iodobutyl)triphenylphosphonium (IBTP). This lipophilic cation is accumulated by mitochondria and yields stable thioether adducts in a thiol-specific reaction. The selective uptake into mitochondria, due to the large membrane potential across the inner membrane, and the high pH of the matrix results in specific labeling of mitochondrial protein thiols by IBTP. Individual mitochondrial proteins that changed thiol redox state following oxidative stress could then be identified by their decreased reaction with IBTP and isolated by two-dimensional electrophoresis. We demonstrate the selectivity of IBTP labeling and use it to show that glutathione oxidation and exposure to an S-nitrosothiol or to peroxynitrite cause extensive redox changes to mitochondrial thiol proteins. In conjunction with blue native gel electrophoresis, we used IBTP labeling to demonstrate that thiols are exposed on the matrix faces of respiratory Complexes I, II, and IV. This novel approach enables measurement of the thiol redox state of individual mitochondrial proteins during oxidative stress and cell death. In addition the methodology has the potential to identify novel redox-dependent modulation of mitochondrial proteins.
KW - Animals
KW - Cations
KW - Cells, Cultured
KW - Electrophoresis, Gel, Two-Dimensional
KW - Electrophoresis, Polyacrylamide Gel
KW - Humans
KW - Hydrogen-Ion Concentration
KW - Immunoblotting
KW - Immunohistochemistry
KW - Jurkat Cells
KW - Magnetic Resonance Spectroscopy
KW - Mitochondria/enzymology
KW - Mitochondria, Liver/enzymology
KW - Models, Chemical
KW - Organophosphorus Compounds/chemistry
KW - Oxidation-Reduction
KW - Oxidative Stress
KW - Peroxynitrous Acid/metabolism
KW - Phosphorylation
KW - Platelet Aggregation Inhibitors/pharmacology
KW - Protein Binding
KW - Rats
KW - S-Nitrosothiols/metabolism
U2 - 10.1074/jbc.M110797200
DO - 10.1074/jbc.M110797200
M3 - Article
C2 - 11861642
SN - 0021-9258
VL - 277
SP - 17048
EP - 17056
JO - The Journal of Biological Chemistry
JF - The Journal of Biological Chemistry
IS - 19
ER -