Abstract
Cardiopulmonary bypass (CPB) causes leukocyte and platelet activation, resulting in upregulation of the adhesion receptor CD11b/CD18 on leukocytes and upregulation of P-selectin, the adhesion receptor that binds the activated platelet to polymorphonuclear neutrophils (PMNs) and monocytes. Our laboratory has studied the expression of activation-dependent adhesion receptors during in vivo CPB. Both PMN and monocyte CD11b were upregulated during CPB but with differing time courses. Peak PMN CD11b levels occurred at the end of the hypothermic phase of bypass, whereas monocyte CD11b levels increased steadily throughout the course of CPB, peaked at 2-4 h after CPB, and remained significantly elevated as late as 18-24 h post CPB. The percentage of P-selectin-positive platelets increased significantly during bypass, peaking around the end of bypass and remaining elevated in the early post-bypass period. The level then returned to normal by 18 h post-bypass. Monocyte-platelet binding paralleled the increase in P-selectin-positive platelets during bypass and similarly remained elevated in the post-bypass period. PMN-platelet binding also increased but peaked early during CPB. Upregulation of these adhesive receptors and formation of platelet-leukocyte conjugates may influence the prothrombotic activity of monocytes and the proinflammatory activity of PMNs in the post-CPB period. Our laboratory has developed an in vitro model of extracorporeal circulation, and recirculation of blood on this circuit results in significant activation of PMNs and monocyte CD11b expression, increasing progressively over time. Likewise, the percentage of P-selectin-positive platelets increased and was paralleled by the formation of leukocyte-platelet conjugates comparable to the pattern found in vivo. Generation of the complement fragments C5a and the C5b-9 membrane-attack complex may contribute to platelet P-selectin expression and formation of leukocyte-platelet conjugates during CPB. The in vitro model has been used to test the cellular effects of complement inhibition employing a monoclonal antibody that blocks cleavage of C5 into C5a and C5b to determine the role of early vs. late complement components in the cellular activation induced by CPB. Preliminary results demonstrate that blockage of the formation of C5a and the C5b-9 membrane-attack complex during simulated extracorporeal circulation effectively inhibits platelet and PMN activation and the formation of leukocyte-platelet conjugates.
Published Version
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