Mechanism for leukotriene C4 stimulation of chloride transport in cornea

Abstract

The leukotriene, LTC₄, exerts a stimulatory effect on chloride transport in the frog cornea. In the work described here, the mechanism of action of LTC₄ to stimulate chloride transport was studied. In corneas pretreated with indomethacin, the effect of LTC₄ was abolished, suggesting the involvement of cyclo-oxygenase products in the response. Incubation of corneas with LTC₄ resulted in a significant stimulation in PGE₂ synthesis, as determined by TLC-autoradiography and radioimmunoassay. In addition, LTC₄ was found to stimulate cAMP synthesis in the cornea, and this stimulation was blocked with indomethacin. PGE₂ was previously shown by us to be the dominant cyclo-oxygenase product formed in the frog cornea, and is capable of stimulating cAMP and chloride transport. We suggest that LTC₄ stimulation of chloride transport is mediated via activation of the cyclooxygenase pathway, resulting in enhanced PGE₂ synthesis. Elevated PGE₂ levels induce cAMP synthesis, and ultimately, the stimulation of chloride transport. Further, the activation of cyclo-oxygenase was found to be dependent on phospholipase A₂ activity. This was shown by the inhibition of the LTC₄ effect in the presence of quinacrine. Similarly, inhibition of the LTC₄ effect in the presence of trifluoperazine suggests that cyclo-oxygenase activation by LTC₄ may be mediated via calmodulin. We have previously demonstrated that the frog cornea has the biosynthetic capacity to produce LTC₄. Therefore LTC₄ may function as an endogenous regulator of chloride transport in this tissue.