Functional and molecular aspects of prostaglandin E receptors in the cortical collecting duct

Abstract

Endogenous prostaglandin (PG) E₂production potently modulates salt and water transport in the kidney. Multiple direct effects of PGE₂on epithelial water and sodium transport have been demonstrated in the rabbit cortical collecting duct (CCD). Both functional and molecular studies now suggest that these disparate effects of PGE₂on CCD function are mediated by different EP receptors. When added in the presence of vasopressin, PGE₂inhibits cyclic AMP generation and water absorption. These effects are mediated via an inhibitory G-protein (G_i). In situ hybridization demonstrates high levels of expression of the G_i-coupled EP₃receptor in the rabbit collecting duct. However, by itself, PGE₂also stimulates cyclic AMP generation and water permeability. These effects appear to be mediated via a distinct EP receptor (possibly an EP₄receptor). PGE₂also increases intracellular Ca²⁺in the CCD and inhibits Na⁺absorption via a Ca²⁺-dependent mechanism. The EP₁receptor is postulated to be responsible for this action of PGE₂. We suggest receptor-selective prostaglandin analogs may be used to selectively modulate sodium and water transport in the kidney.Key words: EP receptor subtypes, G-proteins, in situ hybridization, prostaglandin E₂, phosphatidylinositol biphosphate hydrolysis.