Mechanisms of pulmonary vasoconstriction and bronchoconstriction produced by PAF in the guinea-pig: role of platelets and cyclo-oxygenase metabolites.

1. The mechanisms of action of platelet activating factor (PAF) in the bronchial and cardiovascular systems have not yet been fully elucidated. In order to characterize better and to ascertain whether the effects of PAF in both these systems may be ascribed to the same mechanisms, we examined the actions of PAF in the heart-lung preparation of guinea-pig (HLP). The role of platelets and of cyclo-oxygenase metabolites was investigated. 2. In HLPs perfused with autologous blood, bolus injections of PAF (4-32 ng) produced major effects at the pulmonary vascular and bronchial levels. Both dose-related pulmonary vascular hypertension and bronchoconstriction produced by PAF were diminished to the same extent (46% and, respectively, 47%) when HLPs were perfused with a medium consisting of homologous red blood cells suspended in physiological solution containing 3.5% dextran (RBC). This suggests that the effects of PAF partially depend on the presence of formed elements. 3. When indomethacin (30 microM) was added to the perfusing blood, the dose-response curve for the pulmonary hypertensive responses produced by PAF was strongly reduced (90%) in comparison to control preparations, whereas the bronchoconstrictor effects of PAF were only partially diminished (23%). These data constitute direct evidence that products of the cyclo-oxygenase pathway exert a major role in the vascular, rather than in the bronchial actions of PAF. 4. In HLPs perfused with RBC containing indomethacin (30 microM), the pulmonary vascular hypertensive responses produced by PAF were almost completely abolished, thus indicating that cyclo-oxygenase products from tissues are involved in these effects. Conversely, PAF administration continued to cause dose-related bronchoconstrictor responses that were reduced only partially in comparison with HLPs perfused with RBC in the absence of the cyclo-oxygenase inhibitor. This implies that PAF also has direct action on the bronchoconstriction evoked.5. At the cardiac level, administration of PAF in HLPs perfused with blood caused a dose-related increase in right atrial pressure accompanied by a decrease in left atrial pressure and cardiac output,which were completely suppressed or attenuated by the absence of formed elements and the addition of indomethacin. This suggests that the progressive heart impairment is secondary to the severe pulmonary hypertension induced by PAF.6. The results of this study performed in the heart-lung preparation of the guinea-pig, which made it possible to simultaneously record cardiovascular and bronchial parameters, indicate that various components are involved in the responses produced by PAF. It is suggested that different mechanisms depending on the relative contribution of these components may account for the PAF-induced effects at the pulmonary vascular and airway levels.