Myeloperoxidase-dependent Lipid Peroxidation Promotes the Oxidative Modification of Cytosolic Proteins in Phagocytic Neutrophils |
| |
Authors: | Rachel P. Wilkie-Grantham Nicholas J. Magon D. Tim Harwood Anthony J. Kettle Margreet C. Vissers Christine C. Winterbourn Mark B. Hampton |
| |
Affiliation: | From the Centre for Free Radical Research, Department of Pathology, University of Otago, Christchurch 8140, New Zealand |
| |
Abstract: | Phagocytic neutrophils generate reactive oxygen species to kill microbes. Oxidant generation occurs within an intracellular phagosome, but diffusible species can react with the neutrophil and surrounding tissue. To investigate the extent of oxidative modification, we assessed the carbonylation of cytosolic proteins in phagocytic neutrophils. A 4-fold increase in protein carbonylation was measured within 15 min of initiating phagocytosis. Carbonylation was dependent on NADPH oxidase and myeloperoxidase activity and was inhibited by butylated hydroxytoluene and Trolox, indicating a role for myeloperoxidase-dependent lipid peroxidation. Proteomic analysis of target proteins revealed significant carbonylation of the S100A9 subunit of calprotectin, a truncated form of Hsp70, actin, and hemoglobin from contaminating erythrocytes. The addition of the reactive aldehyde 4-hydroxynonenal (HNE) caused carbonylation, and HNE-glutathione adducts were detected in the cytosol of phagocytic neutrophils. The post-translational modification of neutrophil proteins will influence the functioning and fate of these immune cells in the period following phagocytic activation, and provides a marker of neutrophil activation during infection and inflammation. |
| |
Keywords: | Lipid Peroxidation Myeloperoxidase Neutrophil Oxidative Stress Oxygen Radicals Phagocytosis S100 Proteins 4-Hydroxynonenal calprotectin Protein Carbonylation Oxidative Burst NOX2 |
|
|