A vHTS approach for the identification of beta-adrenoceptor ligands.

Using a vHTS based on a pharmacophore alignment on known beta3-adrenoceptor ligands, a set of intriguing beta-adrenoceptor ligands was identified, optimization of which resulted in a selective and potent human beta2-AR antagonist.

Thienopyrimidines as ß3-adrenoceptor agonists: hit-to-lead optimization.

Resulting from a vHTS based on a pharmacophore alignment on known ß3-adrenoceptor ligands, an aryloxypropanolamine scaffold comprising a thienopyrimidine moiety was further optimized as a human ß3-AR agonist, yielding a lead compound with an excellent cellular activity of EC(50)=20 pM, selectivity over hß1- and hß2-adrenoceptors and a promising safety profile.

Pharmacological characterization of a novel investigational antimuscarinic drug, fesoterodine, in vitro and in vivo.

OBJECTIVE: To investigate the primary pharmacology of fesoterodine (a novel antimuscarinic drug developed for treating overactive bladder) and SPM 7605 (its active metabolite, considered to be the main pharmacologically active principle of fesoterodine in man) against human muscarinic receptor subtypes, and to investigate in vitro and in vivo functional activity of these agents on the rat bladder compared with existing standard agents. MATERIALS AND METHODS: The displacement of radioligand binding by fesoterodine, SPM 7605 and standard agents in membrane preparations of Chinese hamster ovary (CHO) cells expressing the different human muscarinic receptors (M1-M5) was characterized. Agonistic and antagonistic activities were studied using different CHO cell lines stably expressing the human recombinant muscarinic receptor subtypes. The effects of fesoterodine and SPM 7605 on isolated bladder strips contracted by carbachol or electrical field stimulation (EFS) were investigated. In vivo the effects of fesoterodine and SPM 7605 on micturition variables were assessed using continuous cystometry in conscious female Sprague-Dawley rats, and compared to those of oxybutynin and atropine. RESULTS: In vitro SPM 7605 potently inhibited radioligand binding at all five human muscarinic receptor subtypes with equal affinity across all five. Fesoterodine had a similar balanced selectivity profile but was less potent than SPM 7605. Both substances were competitive antagonists of cholinergic agonist-stimulated responses in human M1-M5 cell lines and had a similar potency and selectivity profile to the radioligand-binding studies. In rat bladder strips, fesoterodine and SPM 7605 caused a rightward shift of the concentration-response curve for carbachol with no depression of the maximum, and concentration-dependently reduced contractions induced by EFS. The potency of both drugs was similar to that of atropine and oxybutynin. In the presence of the esterase inhibitor neostigmine, the concentration-response curve of fesoterodine was shifted to the right, suggesting that part of the activity was caused by metabolism to SPM 7605 by tissue enzymes. In vivo, low doses (0.01 mg/kg) of fesoterodine and SPM 7605 reduced micturition pressure and increased intercontraction intervals and bladder capacity, but did not affect residual volume. CONCLUSIONS: Fesoterodine and its active metabolite, SPM 7605, are nonsubtype selective, competitive antagonists of human muscarinic receptors, but SPM 7605 has greater potency than the parent compound. Pharmacodynamic studies in the rat bladder in vitro confirm the competitive muscarinic antagonist profile of these agents in a native tissue preparation, and in vivo studies in the rat showed effects on bladder function consistent with a muscarinic antagonist profile.

Regulation of human penile smooth muscle tone by prostanoid receptors.

We have characterized the prostanoid receptors involved in the regulation of human penile arterial and trabecular smooth muscle tone. Arachidonic acid induced relaxation of human corpus cavernosum strips (HCCS) that was blocked by the cyclo-oxygenase inhibitor, indomethacin, and augmented by the thromboxane receptor (TP) antagonist, SQ29548, suggesting that endogenous production of prostanoids regulates penile smooth muscle tone. TP-receptors mediate contraction of HCCS and penile resistance arteries (HPRA), since the agonist of these receptors, U46619, potently contracted HCCS (EC50 8.3+/-2.8 nM) and HPRA (EC50 6.2+/-2.2 nM), and the contractions produced by prostaglandin F(2alpha) at high concentrations (EC50 6460+/-3220 nM in HCCS and 8900+/-6700 nM in HPRA) were inhibited by the selective TP-receptor antagonist, SQ29548 (0.02 microM). EP-receptors are responsible for prostanoid-induced relaxant effects in HCCS because only prostaglandin E1 (PGE1), prostaglandin E2 and the EP2/EP4-receptor agonist, butaprost, produced consistent relaxation of this tissue (EC50 93.8+/-31.5, 16.3+/-3.8 and 1820+/-1284 nM, respectively). In HPRA, both prostacyclin and PGE1 (EC50 60.1+/-18.4 and 109.0+/-30.9 nM, respectively) as well as the selective IP receptor agonist, cicaprost, and butaprost (EC50 25.2+/-15.2 and 7050+/-6020 nM, respectively) caused relaxation, suggesting co-existence of IP- and EP-receptors (EP2 and/or EP4). In summary, endogenous production of prostanoids may regulate penile smooth muscle contractility by way of specific receptors. TP-receptors mediate contraction in HCCS and HPRA, while the relaxant effects of prostanoids are mediated by EP2- and/or EP4-receptors in HCCS and by EP- and IP-receptors in HPRA.

An aryloxypropanolamine hß3-adrenoceptor agonist as bladder smooth muscle relaxant.

The relaxant effect of an aryloxypropanolamine ß3-adrenoceptor agonist on carbachol pre-contracted human detrusor muscle strips was evaluated and compared with literature results from reference compounds of similar mode of action, including mirabegron. A significant relaxation was observed for rac-4-{2-hydroxy-3-[1-(5-phenylthieno[2,3-d]pyrimidin-4-yl)piperidin-4-ylamino]propoxy}-2-(hydroxymethyl)phenol which was similar to that exerted by mirabegron. In order to allow for a thorough discussion of results in comparison to reference compounds, their affinity, selectivity and efficacy as hß3-AR agonists have been evaluated and discussed thoroughly. A ranking of hß3-AR agonists by relative efficacy resulted in the closest analogy to the order of relaxation potential, with only the relaxant effect of mirabegron not reflecting its excellent relative efficacy as such.