Subthreshold doses of specific phosphodiesterase type 3 and 4 inhibitors enhance the pulmonary vasodilatory response to nebulized prostacyclin with improvement in gas exchange.

Aerosolized prostacyclin (PGI(2)) has been suggested for selective pulmonary vasodilation, but its effect rapidly levels off after termination of nebulization. Stabilization of the second-messenger cAMP by phosphodiesterase (PDE) inhibition may offer a new strategy for amplification of the vasodilative response to nebulized PGI(2). In perfused rabbit lungs, continuous infusion of the thromboxane mimetic U46619 was used to establish stable pulmonary hypertension [increase in pulmonary arterial pressure (pPA) from approximately 7 to approximately 32 mm Hg], which is accompanied by progressive edema formation and severe disturbances in gas exchange with a predominance of shunt flow (increase from <2 to approximately 58%, as assessed by the multiple inert gas elimination technique). In the absence of PGI(2), dose-effect curves for intravascular and aerosol administration of the specific PDE3 inhibitor motapizone, the PDE4 inhibitor rolipram, and the dual-selective PDE3/4 inhibitor tolafentrine on pulmonary hemodynamics were established (potency rank order: rolipram > tolafentrine approximately motapizone; highest efficacy on coapplication of rolipram and motapizone). Ten-minute aerosolization of PGI(2) was chosen to effect a moderate pPA decrease (approximately 4 mm Hg; rapidly returning to prenebulization values within 10-15 min) with only a slight reduction in shunt flow (approximately 49%). Prior application of subthreshold doses of i.v. or inhaled PDE3 or PDE4 inhibitors, which per se did not affect pulmonary hemodynamics, caused prolongation of the post-PGI(2) decrease in pPA. The most effective approach, rolipram plus motapizone, amplified the maximum pPA decrease in response to PGI(2) to approximately 9 to 10 mm Hg, prolonged the post-PGI(2) vasorelaxation to >60 min, reduced the extent of lung edema formation by 50%, and decreased the shunt flow to approximately 19% (i.v. rolipram/motapizone) and 28% (aerosolized rolipram/motapizone). We conclude that lung PDE3/4 inhibition, achieved by intravascular or transbronchial administration of subthreshold doses of specific PDE inhibitors, synergistically amplifies the pulmonary vasodilatory response to inhaled PGI(2), concomitant with an improvement in ventilation-perfusion matching and a reduction in lung edema formation. The combination of nebulized PGI(2) and PDE3/4 inhibition may thus offer a new concept for selective pulmonary vasodilation, with maintenance of gas exchange in respiratory failure and pulmonary hypertension.