Leukotriene C4 action and metabolism in the isolated perfused bullfrog heart

Abstract

The effects of leukotrienes (LTs) have been widely studied in the isolated perfused mammalian heart; however, little is known about the effect or metabolism of LTs in the isolated bullfrog heart. Isolated perfused bullfrog hearts were administered randomized doses of LTC₄, LTD₄, or LTE₄. The cardiac parameters of heart rate, developed tension, and its first derivative (dT/dt) were recorded. LTC₄ was the most potent of the leukotrienes tested in eliciting positive inotropic effects. LTD₄ and LTE₄ were equally effective but about one order of magnitude less potent than LTC₄. None of the LTs showed any chronotropic effects in this preparation. A series of [³H]LTC₄ metabolism experiments were carried out using whole perfused hearts and minced bullfrog heart tissue. Isolated perfused bullfrog hearts administered [³H]LTC₄ converted significant amounts to [³H]LTD₄, and to a lesser degree, [³H]LTE₄, during the 6-min course of collection. Both minced atrial and ventricular tissue converted [³H]LTC₄ to radioactive metabolites that co-migrated with authentic LTD₄ and LTE₄ standards. In both tissues, the major product was [³H]LTD₄, with smaller amounts of [³H]LTE₄ produced. The atrium converted significantly more [³H]LTC₄ to its metabolites than did the ventricle. The metabolism of [³H]LTC₄ to [³H]LTD₄ by both tissues was virtually abolished in the presence of serine borate. Cysteine had no effect on [³H]LTE₄ production. The data in this study demonstrate that leukotrienes have the opposite inotropic effect on the heart when compared with mammals. Also in contrast to mammals, frogs metabolize LTC₄ to a less potent compound and may use the LTC₄ to LTD₄ conversion as a mechanism of LTC₄ inactivation.