[HTML][HTML] Regulation of renal function by prostaglandin E receptors

MD Breyer, YH Zhang, YF Guan, CM Hao, RL Hebert… - Kidney International, 1998 - Elsevier
MD Breyer, YH Zhang, YF Guan, CM Hao, RL Hebert, RM Breyer
Kidney International, 1998Elsevier
Regulation of renal function by prostaglandin E receptors. Prostaglandin E 2 is the major
cyclooxygenase product of arachidonic acid metabolism produced along the nephron. This
autacoid interacts with four distinct, G-protein—coupled E-prostanoid receptors designated
EP 1—EP 4. The intrarenal distribution of each receptor has been mapped and the
consequences of receptor activation examined. EP 3 receptor mRNA is expressed highly in
the medullary thick ascending limb (mTAL) and collecting duct (CD). EP 3 receptor activation …
Regulation of renal function by prostaglandin E receptors. Prostaglandin E2 is the major cyclooxygenase product of arachidonic acid metabolism produced along the nephron. This autacoid interacts with four distinct, G-protein—coupled E-prostanoid receptors designated EP1—EP4. The intrarenal distribution of each receptor has been mapped and the consequences of receptor activation examined. EP3 receptor mRNA is expressed highly in the medullary thick ascending limb (mTAL) and collecting duct (CD). EP3 receptor activation inhibits cAMP generation via Gi, thus inhibiting vasopressin-stimulated water reabsorption in the CD. EP3 receptor activation also may contribute to PGE2-mediated inhibition of NaCl absorption in the mTAL. The EP1 receptor is coupled to increased cell [Ca2+]. EP1 mRNA expression is restricted to the CD, and receptor activation inhibits Na+ absorption. PGE2 also increases cAMP generation in the cortical thick ascending limb and CD; this may be due to EP4 receptor activation. EP4 mRNA is readily detected in the CD with little detectable EP2 expression. The EP4 receptor appears to be expressed both on luminal and basolateral membranes. EP4 receptor activation also may contribute to the regulation of renin release by the juxtaglomerular apparatus. The consequences of renal EP-receptor activation for salt and water balance may be determined by the relative renal expression of each of these receptors.
Elsevier