Abstract
The isolated perfused hearts of rabbits previously subjected to in vivo left ventricular myocardial infarction (LVMI) show a 5-10-fold increase in f-Met-Leu-Phe (FMLP) and bradykinin (BK)-stimulated eicosanoid metabolite production relative to noninfarcted hearts. This exaggerated arachidonate metabolism has been shown to occur primarily in the cardiac atria, a site remote from the zone of injury and to be associated with a 10-15-fold increase in atrial FMLP receptor number in the absence of atrial inflammation. All of these changes were temporally related to leukocyte infiltration into the infarct zone. To determine whether invading leukocytes mediate these responses, acute inflammatory cell influx was suppressed either by inducing leukopenia with nitrogen mustard or by administration of BW-755C, a mixed cyclooxygenase-lipoxygenase inhibitor. Both pharmacological manipulations resulted in a decrease in inflammatory cells in the infarct zone and a marked suppression (50-70%) of ex vivo agonist-stimulated eicosanoid metabolite production from perfused hearts and isolated atria. These manipulations also resulted in reversal of ex vivo FMLP-induced coronary vasoconstriction as well as augmentation of BK-induced coronary vasodilation. Further studies in nitrogen mustard-treated animals revealed a suppression of the LVMI-stimulated increase in atrial FMLP receptor number. These data show that suppression of leukocyte invasion after LVMI attenuates enhanced cardiac and atrial eicosanoid metabolite production, and results in marked changes in coronary vascular reactivity. An additional finding was that basal and stimulated LTB4 production was markedly increased in infarcted hearts. In vivo suppression of the increase in LTB4 production by BW-755C was associated with inhibition of inflammatory cell influx into the infarct zone. It therefore appears that LTB4 may be an important proinflammatory mediator of leukocyte invasion after LVMI.