Cardiac myocytes exposed to anoxia-reoxygenation promote neutrophil transendothelial migration

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Cardiac myocytes exposed to anoxia-reoxygenation promote neutrophil transendothelial migration

Tao Rui¹, Gediminas Cepinskas¹, Qingping Feng², Ye-Shih Ho³, and Peter R. Kvietys¹

¹ Vascular Cell Biology Laboratory and ² Cardiology Research Laboratory, Lawson Health Research Institute, London, Ontario, Canada N6A 4G5; and ³ Institute of Chemical Toxicology, Wayne State University, Detroit, Michigan 48201-2654

The goal of the present study was to assess whether cardiac myocytes exposed to anoxia-reoxygenation (A/R) could generatea chemotactic gradient for polymorphonuclear neutrophil (PMN)transendothelial migration. Exposure of neonatal mouse cardiacmyocytes to A/R induced an oxidant stress in the myocytes. Supernatantsobtained from A/R-conditioned myocytes promoted mouse PMN migrationacross mouse myocardial endothelial cell monolayers. This increasein PMN transendothelial migration could be prevented if catalaseor a platelet-activating factor (PAF) antagonist was added tothe supernatants before assay. Supernatants from A/R-conditionedmyocytes activated endothelial cells by inducing an intracellularoxidant stress. The oxidant stress and PMN transendothelial migrationinduced by supernatants from A/R-conditioned myocytes were substantiallyreduced when endothelial cells derived from manganese superoxidedismutase overexpressing mice were used in the assays. Supernatantsfrom A/R-conditioned myocytes also increased endothelial cellsurface levels of E-selectin and intercellular adhesion molecule-1.Our results indicate that cardiac myocytes exposed to A/R cangenerate a chemotactic gradient, presumably due to productionand release of stable oxidants and PAF. The ability of supernatantsfrom A/R-conditioned myocytes to promote PMN transendothelialmigration was largely dependent on induction of an oxidant stressin endothelial cells. In addition, these supernatants also induceda proadhesive phenotype in the endothelialcells.

manganese superoxide dismutase-overexpressing mice; endothelial cells; adhesion molecules

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