Prostaglandin Stimulation of Renin Release: Independence ofβ-Adrenergic Receptor Activity and Possible Mechanism of Action*

Abstract

Using a continuous superfusion system of rat kidney cortical slices, we investigated the renin-releasing effect of prostaglandin E₂ (PGE₂) and its possible mechanism of action. PGE₂ caused significant stimulation of renin release in a dosedependent fashion at concentrations of 3 × 10^-6 to 10^-4m. Isoproterenol (8 × 10^-7m) stimulated renin release significantly, and its effect was completely abolished by propranolol (2 × 10^-5m). PGE²-stimulated renin release was not blocked by the same dose of propranolol. Dibutyryl cAMP caused a dose-dependent increase in renin release at concentrations of 10^-5 to 5 × 10^-3m. Theophylline (4 × 10^-3m) had no effect on renin release, but when added to subthreshold doses of PGE² (10^-6m), it stimulated renin release significantly. The simultaneous addition of maximal stimulating doses of PGE² and dibutyryl cAMP had no additive or synergistic effects. These experiments show that PGE2 causes stimulation of renin release by a direct effect on the JG cell. The renin-releasing effect of PGE₂ does not depend upon the β-adrenergic receptors but may be mediated through cAMP. (Endocrinology106: 1400, 1980)