Integrin Subtype-Dependent Cd18 Cleavage Under Shear And Its Influence On Leukocyte-Platelet Binding

Previous studies showed that exposure of neutrophils to shear stress induces cysteine protease-mediated shedding of surface CD18 integrins involved in leukocyte-platelet interactions. Based on this, we hypothesized that, under noninflamed conditions, shear-induced CD18 cleavage is a control mechanism to minimize spontaneous leukocyte-platelet binding. For this purpose, we characterized the influence of shear on CD18 surface expression and platelet binding by the different leukocyte subsets. Shear stress elicited magnitude( between 0 and 5 dyn/cm(2)) and time-dependent reductions in CD18 surface expression. This response was integrin-and cell type-specific, with neutrophils and monocytes exhibiting Mac-1 proteolysis but lymphocytes displaying LFA-1 shedding. Correspondingly, platelet binding, through CD18-fibrinogen interactions, was also influenced by shear exposure in a leukocyte-dependent manner. After treatment with cysteine protease inhibitor E64, neutrophils, but neither monocytes nor lymphocytes, exhibited significantly (P<0.05) enhanced platelet binding and CD18 surface expression under shear. Furthermore, shear exposure significantly (P<0.05) inhibited binding of naive but not E64-treated neutrophils to fibrinogen. Combined, we provide first evidence that the CD18-cleavage responses of neutrophils to shear interfere with fibrinogen binding and platelet adhesion. These findings have implications as it relates to the efficiency of leukocyte passage through the microcirculation. J. Leukoc. Biol. 93: 251-258; 2013.