Effect of ibuprofen and rofecoxib transport parameters in the frog corneal epithelium.

Abstract

Effects of cyclooxygenase (COX) inhibitors on transport parameters of the frog corneal epithelium were studied. Epithelial cells of the intact cornea were impaled with microelectrodes. Under short-circuit current (I(sc)) conditions, 10(-4) M ibuprofen (IBU) (non-specific COX inhibitor) or 5 x 10(-5) M rofecoxib (COX-2 inhibitor) were added to the tear solution. With ibuprofen, I(sc) decreased by 1.0 from 3.1 microA/cm2; intracellular potential, V(o), depolarized by 14.2 from -56.9 mV; IBU did not affect the transepithelial conductance, g(t), or the apical membrane fractional resistance, fR(o). With rofecoxib, I(sc) decreased by 0.9 from 4.3 microA/cm2; V(o) depolarized by 18 from -62.4 mV; g(t) significantly increased by 0.03 from 0.37 ms/cm2; and fR(o) decreased by 12 from 50. Basolateral membrane K+ and apical membrane Cl- partial conductances were studied by the ion substitution method. Depolarization of V(o) by an increase in stromal K+ from 4 to 79 mM was smaller with IBU (17.5 mV) or rofecoxib (19.2 mV) than without the inhibitors (29.1 and 29.3 mV, respectively). Depolarization of V(o), by a decrease in tear Cl- from 81 to 8.1 mM, was abolished by the COX inhibitors. Decrease in I(sc) and V(o) can be explained by a decrease in the K+ and Cl-? conductances. Experiments with amphotericin B ruled out a major effect of the inhibitors on the Na+/K+ ATPase pump.