Characterization of a Rabbit Kidney Prostaglandin F2α Receptor Exhibiting Gi-restricted Signaling That Inhibits Water Absorption in the Collecting Duct

Hébert, Richard; Carmosino, Monica; Saito, Osamu; Yang, Guangrui; Jackson, Christopher R.; Qi, Zhonghua; Breyer, Richard M.; Natarajan, Chandramohan; Hata, Aaron N.; Zhang, Yahua; Guan, You-Fei; Breyer, Matthew D.

doi:10.1074/jbc.m505852200

Cited by 31 publications

(29 citation statements)

References 57 publications

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“…It is most abundant in the distal convoluted tubule and aquaporin-2-positive cortical collecting ducts (Saito et al, 2003;Hébert et al, 2005). This distribution is consistent with known FPmediated effects on water and solute transport in these segments of the kidney.…”

Section: Fp Receptorssupporting

confidence: 65%

International Union of Basic and Clinical Pharmacology. LXXXIII: Classification of Prostanoid Receptors, Updating 15 Years of Progress

Woodward

Jones

Narumiya³

2011

Pharmacol Rev

395

414

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Section: Fp Receptorssupporting

confidence: 65%

International Union of Basic and Clinical Pharmacology. LXXXIII: Classification of Prostanoid Receptors, Updating 15 Years of Progress

Woodward

Jones

Narumiya³

2011

Pharmacol Rev

395

414

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“…The FP is highly expressed in the distal convoluted tubules and the cortical collecting duct. In vitro studies suggest that activation of the FP modulates water absorption through inhibition of vasopressin action (17), while infusion of PGF 2a causes both natriuresis and diuresis. Mice with FP deficiency exhibit hypotension, probably due to decreased renin-angiotensin activity (unpublished observations…”

Section: Renal Functionmentioning

confidence: 99%

Prostanoids in health and disease

Smyth

Großer

Wang

et al. 2009

Journal of Lipid Research

461

399

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The prostanoids are a family of lipid mediators generated by the action of cyclooxygenase on a 20-carbon unsaturated fatty acid, arachidonic acid. Prostanoids are generated widely in response to diverse stimuli and, acting in a paracrine or autocrine manner, play important roles in normal physiology and disease. This review summarizes the current knowledge on prostanoid generation and the roles of individual mediators, their biosynthetic pathways, and their receptors in health and disease. Arachidonic acid (AA), a 20-carbon unsaturated fatty acid, is the predominant precursor for a family of lipid mediators, the eicosanoids. Eicosanoid biosynthesis begins with release of AA, esterified in the sn-2 domain of membrane phospholipids, by the action of phospholipase A 2 , particularly group IVA cytosolic cPLA 2 . Three major groups of enzymes, prostaglandin G/H synthases, lipoxygenases, or epoxygenases, then catalyze the formation of the prostaglandins (PGs) and thromboxane A 2 (TxA 2 ), the leukotrienes, or the epoxyeicosatrienoic acids, respectively. A parallel family of free radical catalyzed isomers, the isoeicosanoids, is formed by nonenzymatic peroxidation of AA in situ (1). This review will focus on the PGs and TxA 2 , collectively termed the prostanoids (Fig. 1), in normal physiology and disease. PROSTANOID BIOSYNTHESISProstanoids are formed by the action of prostaglandin G/H synthase, or cyclooxygenase (COX), on AA. COX, an evolutionarily conserved (2) bisfunctional enzyme, exists as two distinct isoforms, COX-1 or COX-2. COX-1, expressed constitutively in most cells, is the dominant (but not exclusive) source of prostanoids for housekeeping functions, such as gastric epithelial cytoprotection and hemostasis. COX-2, induced by cytokines, shear stress, and tumor promoters, is the more important source of prostanoid formation in inflammation and perhaps cancer. However, both enzymes contribute to the generation of autoregulatory and homeostatic prostanoids, and both can contribute to prostanoid formation during inflammation.COX-1 or COX-2 function as homodimers, and perhaps heterodimers (3), inserted into the endoplasmic reticular membrane, to transform AA into the unstable cyclic endoperoxides PGG 2 and PGH 2 (Fig. 1). Downstream isomerases and synthases complete the biosynthesis of TxA 2 and D, E, F, and I series PGs. COX-1 and COX-2 are closely related in their amino acid sequence and crystal structure (4). Isoformspecific preference for downstream enzymes has been reported in heterologous expression systems, although the biological relevance is unknown. COX-1 couples preferentially, but not exclusively, with thromboxane synthase, prostaglandin F synthase, and the cytosolic prostaglandin E synthase (PGES) isozymes. COX-2 prefers prostaglandin I synthase (PGIS) and the microsomal (m) PGES isozymes, both of which are induced by cytokines and tumor promoters. Two forms of prostaglandin D and F synthase have been identified, underscoring the diversity of the isomerases and synthases. PROSTANOID RECEPTO...

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“…25,26 Microdissected tubules (described above) were transferred to a thermostatically controlled chamber of 1 cm 3 volume and cannulated using concentric micropipettes. Bath solution was continuously exchanged at 0.5 ml/min by infusion pump (Harvard Apparatus, Holliston, MA, USA) and was maintained at 37°C.…”

Section: Measurement Of Net Fluid Reabsorption (Jv)mentioning

confidence: 99%

Prostaglandin E2 increases proximal tubule fluid reabsorption, and modulates cultured proximal tubule cell responses via EP1 and EP4 receptors

Nasrallah

Hassouneh

Zimpelmann

et al. 2015

Laboratory Investigation

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Renal prostaglandin (PG) E 2 regulates salt and water transport, and affects disease processes via EP 1-4 receptors, but its role in the proximal tubule (PT) is unknown. Our study investigates the effects of PGE 2 on mouse PT fluid reabsorption, and its role in growth, sodium transporter expression, fibrosis, and oxidative stress in a mouse PT cell line (MCT). To determine which PGE 2 EP receptors are expressed in MCT, qPCR for EP 1-4 was performed on cells stimulated for 24 h with PGE 2 or transforming growth factor beta (TGFβ), a known mediator of PT injury in kidney disease. EP 1 and EP 4 were detected in MCT, but EP 2 and EP 3 are not expressed. EP 1 was increased by PGE 2 and TGFβ, but EP 4 was unchanged. To confirm the involvement of EP 1 and EP 4 , sulprostone (SLP, EP 1/3 agonist), ONO8711 (EP 1 antagonist), and EP 1 and EP 4 siRNA were used. We first show that PGE 2 , SLP, and TGFβ reduced H 3 -thymidine and H 3 -leucine incorporation. The effects on cell-cycle regulators were examined by western blot. PGE 2 increased p27 via EP 1 and EP 4 , but TGFβ increased p21; PGE 2 -induced p27 was attenuated by TGFβ. PGE 2 and SLP reduced cyclinE, while TGFβ increased cyclinD1, an effect attenuated by PGE 2 administration. Na-K-ATPase α1 (NaK) was increased by PGE 2 via EP 1 and EP 4 . TGFβ had no effect on NaK. Additionally, PGE 2 and TGFβ increased fibronectin levels, reaching 12-fold upon co-stimulation. EP 1 siRNA abrogated PGE 2 -fibronectin. PGE 2 also increased ROS generation, and ONO-8711 blocked PGE 2 -ROS. Finally, PGE 2 significantly increased fluid reabsorption by 31 and 46% in isolated perfused mouse PT from C57BL/6 and FVB mice, respectively, and this was attenuated in FVB-EP 1 null mice. Altogether PGE 2 acting on EP 1 and EP 4 receptors may prove to be important mediators of PT injury, and salt and water transport. Prostaglandin (PG) E 2 is a major product of cyclooxygenase activity in the kidney. It has a substantial role in maintaining hemodynamics, salt and water homeostasis, and affects growth, inflammation, oxidative stress, and fibrotic responses (reviewed in refs. 1-3 ). Four EP receptors (EP 1-4 ) mediate the signalling responses to PGE 2 , by altering intracellular cAMP and/or Ca 2+ levels. Renal cells often simultaneously express multiple EP receptors, and their relative levels determine the cell's response. Although the contribution of the proximal tubule (PT) to overall renal prostaglandin synthesis is minimal, the role of PGE 2 in PT transport function has been considered. For instance, PGE 2 stimulates cAMP and activates protein kinase A, and in turn regulates basolateral organic anion uptake. 4,5 In contrast, long-term exposure to PGE 2 inhibits its excretion by decreasing the levels of basolateral organic anion transporters that are responsible for PGE 2 uptake in rat renal PT cells. 6 The underlying regulatory pathways are not completely understood, but short-term vs long-term exposure to PGE 2 has opposite effects on the overall cell response. PGE 2 also reduces phosphate transpo...

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Characterization of a Rabbit Kidney Prostaglandin F2α Receptor Exhibiting Gi-restricted Signaling That Inhibits Water Absorption in the Collecting Duct

Cited by 31 publications

References 57 publications

International Union of Basic and Clinical Pharmacology. LXXXIII: Classification of Prostanoid Receptors, Updating 15 Years of Progress

International Union of Basic and Clinical Pharmacology. LXXXIII: Classification of Prostanoid Receptors, Updating 15 Years of Progress

Prostanoids in health and disease

Prostaglandin E2 increases proximal tubule fluid reabsorption, and modulates cultured proximal tubule cell responses via EP1 and EP4 receptors

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