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Biochemical Phenomena, Metabolism, and Nutrition

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Full-Text Articles in Medical Toxicology

Redox Proteomic Identification Of Hne-Bound Mitochondrial Proteins In Cardiac Tissues Reveals A Systemic Effect On Energy Metabolism After Doxorubicin Treatment, Y. Zhao, Sumitra Miriyala, L. Miao, Mihail I. Mitov, David M. Schnell, Sanjit Kumar Dhar, J. Cai, J. B. Klein, Rukhsana Sultana, D. Allan Butterfield, Mary Vore, I. Batinic-Haberle, Subbarao Bondada, Daret K. St. Clair Jul 2014

Redox Proteomic Identification Of Hne-Bound Mitochondrial Proteins In Cardiac Tissues Reveals A Systemic Effect On Energy Metabolism After Doxorubicin Treatment, Y. Zhao, Sumitra Miriyala, L. Miao, Mihail I. Mitov, David M. Schnell, Sanjit Kumar Dhar, J. Cai, J. B. Klein, Rukhsana Sultana, D. Allan Butterfield, Mary Vore, I. Batinic-Haberle, Subbarao Bondada, Daret K. St. Clair

Toxicology and Cancer Biology Faculty Publications

Doxorubicin (DOX), one of the most effective anticancer drugs, is known to generate progressive cardiac damage, which is due, in part, to DOX-induced reactive oxygen species (ROS). The elevated ROS often induce oxidative protein modifications that result in alteration of protein functions. This study demonstrates that the level of proteins adducted by 4-hydroxy-2-nonenal (HNE), a lipid peroxidation product, is significantly increased in mouse heart mitochondria after DOX treatment. A redox proteomics method involving two-dimensional electrophoresis followed by mass spectrometry and investigation of protein databases identified several HNE-modified mitochondrial proteins, which were verified by HNE-specific immunoprecipitation in cardiac mitochondria from the …

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