Richard M. Breyer scite author profile

Cyclooxygenases metabolize arachidonate to five primary prostanoids: PGE(2), PGF(2 alpha), PGI(2), TxA(2), and PGD(2). These autacrine lipid mediators interact with specific members of a family of distinct G-protein-coupled prostanoid receptors, designated EP, FP, IP, TP, and DP, respectively. Each of these receptors has been cloned, expressed, and characterized. This family of eight prostanoid receptor complementary DNAs encodes seven transmembrane proteins which are typical of G-protein-coupled receptors and these receptors are distinguished by their ligand-binding profiles and the signal transduction pathways activated on ligand binding. Ligand-binding selectivity of these receptors is determined by both the transmembrane sequences and amino acid residues in the putative extracellular-loop regions. The selectivity of interaction between the receptors and G proteins appears to be mediated at least in part by the C-terminal tail region. Each of the EP(1), EP(3), FP, and TP receptors has alternative splice variants described that alter the coding sequence in the C-terminal intracellular tail region. The C-terminal variants modulate signal transduction, phosphorylation, and desensitization of these receptors, as well as altering agonist-independent constitutive activity.

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Pharmacology and signaling of prostaglandin receptors: Multiple roles in inflammation and immune modulation

Hata

Breyer

2004

Pharmacology & Therapeutics

737

657

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Neuroprotective Function of the PGE₂EP2 Receptor in Cerebral Ischemia

McCullough¹,

Wu²,

Haughey³

et al. 2004

J. Neurosci.

340

375

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The cyclooxygenases COX-1 and COX-2 catalyze the first committed step of prostaglandin synthesis from arachidonic acid. Previous studies in rodent stroke models have shown that the inducible COX-2 isoform promotes neuronal injury, and the administration of COX-2 inhibitors reduces infarct volume. We investigated the function of PGE 2 , a principal prostaglandin product of COX-2 enzymatic activity, in neuronal survival in cerebral ischemia. PGE 2 exerts its downstream effects by signaling through a class of four distinct G-proteincoupled EP receptors (for E-prostanoid: EP1, EP2, EP3, and EP4) that have divergent effects on cAMP and phosphoinositol turnover and different anatomical distributions in brain. The EP2 receptor subtype is abundantly expressed in cerebral cortex, striatum, and hippocampus, and is positively coupled to cAMP production. In vitro studies of dispersed neurons and organotypic hippocampal cultures demonstrated that activation of the EP2 receptor was neuroprotective in paradigms of NMDA toxicity and oxygen glucose deprivation. Pharmacologic blockade of EP2 signaling by inhibition of protein kinase A activation reversed this protective effect, suggesting that EP2-mediated neuroprotection is dependent on cAMP signaling. In the middle cerebral artery occlusion-reperfusion model of transient forebrain ischemia, genetic deletion of the EP2 receptor significantly increased cerebral infarction in cerebral cortex and subcortical structures. These studies indicate that activation of the PGE 2 EP2 receptor can protect against excitotoxic and anoxic injury in a cAMPdependent manner. Taken together, these data suggest a novel mechanism of neuroprotection mediated by a dominant PGE 2 receptor subtype in brain that may provide a target for therapeutic intervention.

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Richard M. Breyer

Prostanoid Receptors: Subtypes and Signaling

Pharmacology and signaling of prostaglandin receptors: Multiple roles in inflammation and immune modulation

Neuroprotective Function of the PGE₂EP2 Receptor in Cerebral Ischemia

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Richard M. Breyer

Prostanoid Receptors: Subtypes and Signaling

Pharmacology and signaling of prostaglandin receptors: Multiple roles in inflammation and immune modulation

Neuroprotective Function of the PGE2EP2 Receptor in Cerebral Ischemia

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Neuroprotective Function of the PGE₂EP2 Receptor in Cerebral Ischemia