Functional evidence for different endothelin receptors in the lung.

The present study was undertaken to compare and contrast the characteristics of the pulmonary and systemic vascular responses to endothelin (ET) isoforms in the intact spontaneously breathing cat under conditions of constant pulmonary blood flow and left atrial pressure. When pulmonary vasomotor tone (PVT) was actively increased by intralobar infusion of U-46619, intralobar arterial bolus injections of 1 microgram ET-1, 1 microgram ET-2, or 3 micrograms ET-3 markedly decreased lobar arterial pressure, systemic arterial pressure, and systemic vascular resistance. After seven repeated injections of ET-1 or ET-2 to separate groups of cats, pulmonary and systemic responses were largely reversed from vasodilation to vasoconstriction. In contrast, the pulmonary vasodilator response to ET-3 remained intact after multiple ET-3 injections, whereas its systemic vasodilator response was lost. Repeated intralobar arterial bolus injections of ET-1, ET-2, or ET-3 also caused the loss of pulmonary vasodilation to subsequent doses of ET-1, ET-2, or sarafotoxin 6b but not to ET-3. The present data suggest that the pulmonary and systemic vasodilator responses to ET-1 and ET-2 undergo tachyphylaxis and cross-tachyphylaxis. In contrast, the pulmonary vasodilator response to ET-3, unlike its systemic vasodilator response, is resistant to tachyphylaxis and cross-tachyphylaxis. The present data provide a functional correlate for the existence of at least two ET receptor subtypes, ETA-like and ETC-like receptors, in the adult pulmonary vascular bed.

Mechanisms of signal transduction for adenosine and ATP in pulmonary vascular bed.

The purpose of the present study was to investigate the contribution of pertussis toxin (PTX)-sensitive guanine nucleotide (G) proteins in the pulmonary vascular response to adenosine and ATP in the intact cat under conditions of controlled pulmonary blood flow and left atrial pressure. Adenosine, ATP, and beta-tau-ATP increased lobar arterial pressure in a dose-dependent manner. The pulmonary vasoconstrictor response to adenosine was abolished by BW 1433U, a specific purinergic receptor (P1) inhibitor, PTX pretreatment, indomethacin, and ONO 3708, a thromboxane A2 (TxA2) receptor antagonist. These data suggest that the pulmonary vasoconstrictor response to adenosine depends on activation of P1 purinergic receptors coupled to PTX-sensitive G proteins and subsequent metabolism of liberated arachidonic acid to form TxA2. Because each blocking agent studied produced similar reductions in the pulmonary vasoconstrictor response to ATP without altering the pulmonary vasoconstrictor response to beta-tau-ATP, the present data suggest that ATP constricts the pulmonary vascular bed, in part, by hydrolysis to adenosine. Moreover, the present study suggests that both A1 purinoceptors that are linked to PTX-sensitive G proteins as well as P2x purinoceptors receptors that are independent of PTX-insensitive G proteins mediate the pulmonary vasoconstrictor response to ATP in vivo.

Endothelin produces pulmonary vasoconstriction and systemic vasodilation.

Endothelin is a newly described polypeptide derived from endothelial cells. The effects of porcine endothelin on the pulmonary vascular bed and systemic vascular bed were investigated in the anesthetized, intact-chest cat under conditions of constant pulmonary blood flow and left atrial pressure. Intralobar bolus injections of porcine endothelin (100-1000 ng) produced a mild vasoconstrictor response in the pulmonary vascular bed. The pulmonary vasoconstrictor response to endothelin was not altered when pulmonary vasomotor tone was increased by infusion of U46619. In contrast to this mild pulmonary vasoconstrictor response, endothelin decreased systemic arterial pressure. Moreover, injections of porcine endothelin into the right and left atria produced similar reductions in aortic pressure as well as similar increases in cardiac output and decreases in systemic vascular resistance. The systemic vasodilator response to porcine endothelin was not affected by beta 2-adrenoceptor blockade. The present data suggest that endothelin does not undergo significant first-pass pulmonary metabolism. The pulmonary vasoconstrictor response to bolus injections of porcine endothelin is not altered by changes in pulmonary vasomotor tone. In contrast, endothelin markedly dilated the systemic vascular bed independently of activation of beta 2-adrenoceptors. The present study provides the first report of the activity of endothelin on pulmonary and systemic hemodynamics in vivo. Moreover, the potent vasodilator activity of endothelin in the systemic vascular bed and its weak effect on pulmonary vessels suggest that endothelin may be more important in the regulation of peripheral vasomotor tone than the pulmonary vascular bed.