Study of mechanisms mediating contraction to leukotriene C4, D4 and other bronchoconstrictors on guinea pig trachea.

Contractions of guinea pig trachea in the absence and presence of indomethacin to LTD4 greater than LTC4 greater than K+ greater than histamine greater than acetylcholine were reduced following a 45 minute exposure of the tissues to calcium-free Krebs' solution (Ca2+-free Krebs' solution), were further reduced by a transient exposure to EGTA (1.25 mM) in Ca2+-free Krebs' solution and were virtually abolished when tested in the presence of EGTA (0.125 mM) in Ca2+-free Krebs' solution. In normal Krebs' solution (2.5 mM Ca2+) the Ca2+ entry blockers nifedipine (N) much greater than D-600 greater than verapamil (V) greater than diltiazem (D) almost completely abolished the contractions to K+ but blocked only a component of the maximum response to the other agonists. After exposure to Ca2+-free Krebs' solution for 45 minutes, any residual contractions to LTC4 & LTD4, were reversed by low concentrations of N (0.3 microM) or D-600 (2.1 microM). Leukotrienes appear to mobilize a superficial and a bound store of Ca2+ which gains entry through at least two types of Ca2+ channels (or mechanisms), one of which is blocked by N and D600. K+-induced contractions appear to be dependent on superficial and tightly bound Ca2+ but entry is solely through channels which are blocked by the Ca2+ entry blockers studied. Contraction to histamine and acetylcholine persisted following exposure of the tissues to Ca2+ free Krebs' solution but contractile activity was virtually abolished in Ca2+ free Krebs' solution containing EGTA. Residual contractions to histamine and part of the residual contractions to acetylcholine in Ca2+-free Krebs' solution were blocked by low dose N (0.3 microM) or D600 (2.1 microM). These findings suggest a major role for extracellular Ca2+ during spasmogen-induced contraction in this tissue.