Dual Role of Prostaglandins (PGE2) in Regulation of Channel Density and Open Probability of Epithelial Na+ Channels in Frog Skin (R. pipiens)

Prostaglandins are important in signaling pathways involved in modulating the rates of Na⁺ transport in a diverse group of tissues possessing apical membrane epithelial channels. PGE₂ is known to cause either stimulation, inhibition or transient stimulatory changes of Na⁺ transport. We have continued our studies of frog skins that are known to respond to forskolin and PGE₂ with large steady-state increases of transport and have used noninvasive methods of blocker-induced noise analysis of Na⁺ channels to determine their channel densities (N _T ) and open probabilities (P _o ). In the absence of exogenous hormones, baseline rates of Na⁺ transport are especially high in scraped skins (R. pipiens pipiens) studied in the fall of the year. Na⁺ transport was inhibited by indomethacin and by removal of the unstirred layers of the corium (isolated epithelia) alone suggesting that PGE₂ is responsible for the sustained and elevated rates of transport in scraped skins. Changes of transport caused by indomethacin, forskolin or PGE₂ were unquestionably mediated by considerably larger changes of N _T than compensatory changes of P _o . Since cAMP caused no change of P _o in tissues pretreated with indomethacin, PGE₂ appears in this tissue to serve a dual role, increasing the steady state N _T by way of cAMP and decreasing P _o by unknown mechanisms. Despite appreciable PGE₂-related decreases of P _o , the net stimulation of transport occurs by a considerably greater cAMP-mediated increase of N _T . Received: 28 February 1996/Revised: 22 August 1996