Identification of the primary products of cyclo-oxygenase (COX)/prostaglandin synthase(s), which occurred between 1958 and 1976, was followed by a classification system for prostanoid receptors (DP, EP1, EP2 . . .) based mainly on the pharmacological actions of natural and synthetic agonists and a few antagonists. The design of potent selective antagonists was rapid for certain prostanoid receptors (EP1, TP), slow for others (FP, IP) and has yet to be achieved in certain cases (EP2). While some antagonists are structurally related to the natural agonist, most recent compounds are 'non-prostanoid' (often acyl-sulphonamides) and have emerged from high-throughput screening of compound libraries, made possible by the development of (functional) assays involving single recombinant prostanoid receptors. Selective antagonists have been crucial to defining the roles of PGD2 (acting on DP1 and DP2 receptors) and PGE2 (on EP1 and EP4 receptors) in various inflammatory conditions; there are clear opportunities for therapeutic intervention. The vast endeavour on TP (thromboxane) antagonists is considered in relation to their limited pharmaceutical success in the cardiovascular area. Correspondingly, the clinical utility of IP (prostacyclin) antagonists is assessed in relation to the cloud hanging over the long-term safety of selective COX-2 inhibitors. Aspirin apart, COX inhibitors broadly suppress all prostanoid pathways, while high selectivity has been a major goal in receptor antagonist development; more targeted therapy may require an intermediate position with defined antagonist selectivity profiles. This review is intended to provide overviews of each antagonist class (including prostamide antagonists), covering major development strategies and current and potential clinical usage.
We have examined the effects of exposing rats to hypoxia (10% fractional inspired O2 concentration) for 2 and 7 days on endothelium-dependent and -independent vasodilation and also on the ability of guanosine 3',5'-cyclic monophosphate (cGMP) to activate cGMP-dependent protein kinase (G-kinase) in rat conduit pulmonary arteries (PA). The ability of acetylcholine (ACh) and sodium nitroprusside (SNP) to both relax PA rings and elevate tissue cGMP levels was significantly attenuated in PA from hypoxic animals. The ability of atrial natriuretic peptide to relax and generate cGMP in PA rings was unchanged by hypoxia. Relaxation and elevation of cGMP levels induced by SNP in aortic rings was unaltered by hypoxia. Similarly, hypoxia did not alter the concentration-dependent activation by exogenous cGMP of G-kinase. We conclude that chronic exposure of rats to hypoxia results in a selective impairment of soluble guanylyl cyclase in rat PA, leading to an attenuation of ACh- and SNP-induced cGMP accumulation and relaxation.
b 2 -Adrenoceptor agonists are the most effective bronchodilators currently available, and are used for symptom management in asthmatics. However, whether b 2 -agonists are also antitussive is controversial. Identifying an antitussive role for b 2 -agonists and dissecting the possible mechanism of action may help to explain the inconsistencies in the clinical literature and lead to the development of novel therapeutic agents. The aim of the present study was to determine whether or not b 2 -agonists attenuate the tussive response in guinea pig and human models, and, if so, to identify the mechanism(s) involved.Depolarisation of vagal sensory nerves (human and guinea pig) was assessed as an indicator of sensory nerve activity. Cough was measured in a conscious guinea pig model.A b 2 -agonist, terbutaline, dose-dependently inhibited the cough response to tussive agents in conscious guinea pigs. Terbutaline and another b 2 -agonist, fenoterol, blocked sensory nerve activation in vitro. Using these mechanistic models, it was established that b 2 -agonists suppress the tussive response via a nonclassical cyclic adenosine monosphosphate-dependent pathway that involves the activation of protein kinase G and, subsequently, the opening of largeconductance calcium-activated potassium channels.In conclusion, b 2 -adrenoceptor agonists are antitussive, and this property occurs due to a direct inhibition of sensory nerve activation. These findings may help to explain the confusion that exists in the clinical literature, and could be exploited to identify novel therapies for the treatment of cough, which is a significant unmet medical need.
Background and purpose: Prostaglandin (PG) E2 and interleukin (IL)-8 are simultaneously increased during the inflammation that characterizes numerous pathologies such as inflammatory bowel disease. IL-8 is a potent neutrophil chemo-attractant and activator, and can initiate and/or exacerbate tissue injury. PGE2 signals principally through prostanoid receptors of the EP2 and/or EP4 subtypes to promote cAMP-dependent cellular functions. The aim of this study was to identify the role of the EP2 and EP4 receptor subtype(s) on two human colonic epithelial cell lines (Caco-2 and T84), in regulating PGE2-induced IL-8 production.Experimental approach: To identify the causative receptor, we knocked-down and over-expressed EP2 and EP4 receptor subtypes in colonic epithelial cells and studied the effect of several selective EP2/EP4 receptor agonists and antagonists. The inductions of IL-8 and EP receptor mRNA and protein expression were determined by real-time PCR and western blot analysis. The affinity of PGE2 and Bmax values for the EP2 and EP4 receptor on colonic epithelial cells were determined by radioligandbinding assays with [ 3 H]PGE2. Key results: PGE2 had the highest affinity for the EP4 receptor subtype and promoted a robust stimulation of cAMP-dependent IL-8 synthesis. This effect was mimicked by a selective EP4 receptor agonist, ONO-AE1-329, and abolished by silencing the EP4 receptor gene by using siRNA techniques, a selective EP4 receptor antagonist (ONO-AE3-208) and a selective inhibitor (Rp-cAMP) of cAMP-dependent protein kinase. Conclusions and implications: These findings suggest that initiation and progression of colonic inflammation induced by IL-8 could be mediated, at least in part, by PGE2 acting via the EP4 receptor subtype.
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