Background: Platelet-activating factor is a biologically potent phospholipid that may mediate cell damage in patients with myocardial ischemia. In plasma, its inactivation to lyso-platelet-activating factor is catalyzed by a specific, lipoprotein-associated acetylhydrolase. Because lipoprotein levels decrease after myocardial infarction, a possible reduction was suspected to occur in plasma degradation of platelet-activating factor.
Methods: Degradation of platelet-activating factor was examined in an optimized assay of acetylhydrolase activity and in relation to the in vitro plasma half-life of platelet-activating factor. These, plasma lyso-platelet-activating factor and serum lipids, were measured in 12 men with acute myocardial infarction at presentation and at 2 and 7 days later.
Results: Acetylhydrolase activity was depressed at day 2 and at day 7. The corresponding increase in plasma half-life of platelet-activating factor was minimal and insignificant. A significant linear relation existed between the half-life of platelet-activating factor and the reciprocal of acetylhydrolase activity at each time of study, indicating a hyperbolic relation between the two. By day 2, total and low-density lipoprotein cholesterol had decreased but showed no further change by day 7; high-density lipoprotein cholesterol had not decreased at day 2 but was depressed by day 7. Plasma lyso-platelet-activating factor had decreased by day 2 and had returned to its initial level by day 7.
Conclusions: Acute myocardial infarction is associated with depression of plasma acetylhydrolase activity, and because of the hyperbolic relation between the plasma enzyme activity and the half-life of platelet-activating factor, the latter shows negligible change. Hence, the mechanism for the inactivation of any platelet-activating factor that might be released as a consequence of tissue damage is preserved.