Pharmacologic Responsiveness of Rat Parenchymal Strips, Bronchi, and Bronchioles

Abstract

It has been inferred from previous studies that leukotrienes C₄ and D₄ preferentially exhibit their effects on peripheral airways. Thus we used LTC₄ to examine the responsiveness of parenchymal strips, lung preparations often used as in vitro models of airway function, and to compare the responses with those observed in a preparation of isolated peripheral airways. In these studies, the effects ofLTC₄ on isolated bronchioles of the rat were compared to responses observed in parenchymal strips and primary intra-pulmonary bronchi. Parenchymal strips contracted in response to increasing concentrations of LTC₄ and to a single concentration of bethanechol. When the maximum responses were normalized to that induced by membrane depolarization, it was found that the parenchymal strip was more responsive to the leukotriene. Primary intrapulmonary bronchi similarly contracted in response to UC₄; however, the intrapulmonary bronchi were much more responsive to bethanechol than to the leukotriene. The bronchioles were not responsive to LTC₄ but did contract in response to membrane depolarization and on exposure to bethanechol. When normalized, the responsiveness of the bronchiole to bethanechol was significantly greater than the responsiveness of the bronchi to this agonist. Thus contraction of the rat parenchymal strip to LTC₄ cannot be attributed to the direct effects of this agonist on bronchiolar smooth muscle. We conclude that the bronchiole of the rat is not responsive to LTC₄ and that the contractions observed in the parenchymal strip in response to this agonist must result from a mechanism other than direct action of LTC₄ on peripheral airway smooth muscle.