Discovery and optimization of RO-85, a novel drug-like,potent, and selective P2X3 receptor antagonist

Despite the extensive literature describing the role of the ATP-gated P2X₃ receptors in a variety of physiological processes the potential of antagonists as therapeutic agents has been limited by the lack of drug-like selective molecules. In this paper we report the discovery and optimization of RO-85, a novel drug-like, potent and selective P2X₃ antagonist. High-throughput screening of the Roche compound collection identified a small hit series of heterocyclic amides from a large parallel synthesis library. Rapid optimization, facilitated by high-throughput synthesis, focusing on increasing potency and improving drug-likeness resulted in the discovery of RO-85.     

The discovery of BMS-457, a potent and selective CCR1 antagonist

A series of compounds which exhibited good human CCR1 binding and functional potency was modified resulting in the discovery of a novel series of high affinity, functionally potent antagonists of the CCR1 receptor. Issues of PXR activity, ion-channel potency, and poor metabolic stability were addressed by the addition of a hydroxyl group to an otherwise lipophilic area in the molecule resulting in the discovery of preclinical candidate BMS-457 for the treatment of rheumatoid arthritis.     

Identification of a potent and selective 5-HT1B receptor antagonist

An SAR study around the mixed 5-HT1ABD receptor antagonist SB-272183 found that introduction of cis-2,6-dimethyl substitution onto the piperazine ring was a key structural change, which imparted a combination of both excellent selectivity over the 5-HT1A and 5-HT1D receptors and low intrinsic activity. This led to the identification of the selective 5-HT1B receptor antagonist SB-616234.     

The solution conformation Ac-Pen-Arg-Gly-Asp-Cys-OH,a potent fibrinogen receptor antagonist

The solution conformation of , a potent fibrinogen receptor antagonist, was characterized in DMSO-d₆ by the combination of nmr and molecular modeling. The conformational space available to the peptide was explored using a distance geometry algorithm with distance constraints derived from ¹H-nmr spectra. The dynamics of the peptide were examined by relaxation time measurements and low temperature studies. The results from the low temperature studies suggest that the peptide backbone does not exist in a single, well-defined conformation but undergoes exchange between multiple conformers. This result is consistent with the inability to find a single structure that satisfies all the nmr-derived constraints. The constraints could only be satisfied by considering pairs of conformers to represent the experimental data. The low energy conformers comprise type II′ or type V β-turns with distinct side-chain directionality. The Arg-Gly-Asp portion of the ring is flexible and can be described by amide-plane rotations of the Arg-Gly and Gly-Asp peptide bonds. Although some backbone flexibility is evident, the incorporation of β,β-dimethyl cysteine imparted greater conformational rigidity as compared to the previously studied cyclic pentapeptide, . © 1993 John Wiley & Sons, Inc.     

From arylureas to biarylamides to aminoquinazolines: discovery of a novel, potent TRPV1 antagonist

Bioisosteric replacement of piperazine with an aryl ring in lead VR1 antagonist 1 led to the biarylamide series. The development of B-ring SAR led to the conformationally constrained analog 70. The resulting aminoquinazoline 70 represents a novel VR1 antagonist with improved in vitro potency and oral bioavailability vs the analogous compounds from the lead series.     

Semotiadil, a new calcium antagonist, is a very potent inhibitor of LDL-oxidation

The influence of semotiadil, a novel benzothiazine calcium antagonist on in-vitro copper-, 2,2àzo-bis-(2,4 dimethylvaleronitrile)[AMVN]-, and 2,2àzo-bis-(2-amidinopropane) [AAPH]-induced low-density lipoprotein (LDL) oxidation was assessed. The following parameters were measured: lag-time of oxidation, maximal rate of oxidation, dienes formed through continuous monitoring of developing conjugated dienes, thiobarbituric acid reactive substances, isoprostane(8-iso-PGF2alpha)-generation and relative electrophoretic mobility. The effect was compared with nifedipine, amlodipine and diltiazem. Besides the influence on isoprostane (8-iso-PGF2alpha)-generation where nifedipine was equipotent with semotiadil at 10(-3) M, semotiadil demonstrated a strong and significant effect in attenuating the indicated indices of LDL-oxidation, in particular, dose-dependently (10(-3) M to 10(-7) M). These results indicate that semotiadil may have the strongest antioxidant activity on LDL among the calcium antagonists examined.     

Identification and characterization of a potent, selective, and orally active antagonist of the CC chemokine receptor-1

The CC chemokine receptor-1 (CCR1) is a prime therapeutic target for treating autoimmune diseases. Through high capacity screening followed by chemical optimization, we identified a novel non-peptide CCR1 antagonist, R-N-[5-chloro-2-[2-[4-[(4-fluorophenyl)methyl]-2-methyl-1-piperazinyl ]-2-oxoethoxy]phenyl]urea hydrochloric acid salt (BX 471). Competition binding studies revealed that BX 471 was able to displace the CCR1 ligands macrophage inflammatory protein-1alpha (MIP-1alpha), RANTES, and monocyte chemotactic protein-3 (MCP-3) with high affinity (K(i) ranged from 1 nm to 5.5 nm). BX 471 was a potent functional antagonist based on its ability to inhibit a number of CCR1-mediated effects including Ca(2+) mobilization, increase in extracellular acidification rate, CD11b expression, and leukocyte migration. BX 471 demonstrated a greater than 10,000-fold selectivity for CCR1 compared with 28 G-protein-coupled receptors. Pharmacokinetic studies demonstrated that BX 471 was orally active with a bioavailability of 60% in dogs. Furthermore, BX 471 effectively reduces disease in a rat experimental allergic encephalomyelitis model of multiple sclerosis. This study is the first to demonstrate that a non-peptide chemokine receptor antagonist is efficacious in an animal model of an autoimmune disease. In summary, we have identified a potent, selective, and orally available CCR1 antagonist that may be useful in the treatment of chronic inflammatory diseases.     

(1R,2S)-4-(2-cyano-cyclohexyl-oxy)-2-trifluoromethyl-benzonitrile, a potent androgen receptor antagonist for stimulating hair growth and reducing sebum production

Synthesis, pharmacology, and pharmacokinetic profiles of (1R, 2S)-4-(2-cyano-cyclohexyl-oxy)-2-trifluoromethyl-benzonitrile are reported. This compound demonstrated remarkable potency for stimulating hair growth in a male C3H mouse model as well as reducing sebum production in the male Syrian hamster ear model.     

CP-481,715, a potent and selective CCR1 antagonist with potential therapeutic implications for inflammatory diseases

The chemokines CCL3 and CCL5, as well as their shared receptor CCR1, are believed to play a role in the pathogenesis of several inflammatory diseases including rheumatoid arthritis, multiple sclerosis, and transplant rejection. In this study we describe the pharmacological properties of a novel small molecular weight CCR1 antagonist, CP-481,715 (quinoxaline-2-carboxylic acid [4(R)-carbamoyl-1(S)-(3-fluorobenzyl)-2(S),7-dihydroxy-7-methyloctyl]amide). Radiolabeled binding studies indicate that CP-481,715 binds to human CCR1 with a Kd of 9.2 nm and displaces 125I-labeled CCL3 from CCR1-transfected cells with an IC50 of 74 nm. CP-481,715 lacks intrinsic agonist activity but fully blocks the ability of CCL3 and CCL5 to stimulate receptor signaling (guanosine 5'-O-(thiotriphosphate) incorporation; IC50 = 210 nm), calcium mobilization (IC50 = 71 nm), monocyte chemotaxis (IC50 = 55 nm), and matrix metalloproteinase 9 release (IC50 = 54 nm). CP-481,715 retains activity in human whole blood, inhibiting CCL3-induced CD11b up-regulation and actin polymerization (IC50 = 165 and 57 nm, respectively) on monocytes. Furthermore, it behaves as a competitive and reversible antagonist. CP-481,715 is >100-fold selective for CCR1 as compared with a panel of G-protein-coupled receptors including related chemokine receptors. Evidence for its potential use in human disease is suggested by its ability to inhibit 90% of the monocyte chemotactic activity present in 11/15 rheumatoid arthritis synovial fluid samples. These data illustrate that CP-481,715 is a potent and selective antagonist for CCR1 with therapeutic potential for rheumatoid arthritis and other inflammatory diseases.     

Prolonged inhibition of pressor response to vasopressin by a potent specific antagonist, [1-(beta-mercapto-beta, beta-cyclopentamethylenepropionic acid) 2-(O-methyl)tyrosine]arginine-vasopressin

The specificity, the potency, and the duration of action of [1-(beta-mercapto-beta, beta-cyclopentamethylenepropionic acid) 2-(O-methyl)tyrosine]arginine-vasopressin[d(CH2)5Tyr(Me)AVP] to antagonize pressor responses to arginine vasopressin (AVP) was examined in pentobarbital-anaesthetized rats. Injection of the compound (4 micrograms.kg-1 i.v.) prevented pressor responses to i.v. infusions of supramaximal doses of AVP, but not to i.v. infusions of another peptide, angiotensin II (Ag II). The antagonism of AVP persisted for at least 3 h. Since i.v. injection of the compound in the absence of exogenous administration of AVP did not cause any change in the arterial pressure of rats, it appears that the compound is devoid of agonistic pressor activity. The results show that d(CH2)5Tyr(Me)AVP is a potent and a specific antagonist of pressor responses to AVP.     

Identification of a potent and nonpeptidyl ccr3 antagonist

CCR3 is expressed in a variety of leukocyte subsets, especially eosinophils, and may be involved in allergic disorders such as atopic asthma. To clarify the pathophysiological roles of CCR3 in allergic disorders, we developed a nonpeptidyl CCR3 antagonist. This antagonist, which is referred to as "Compound X," that inhibited the binding of [(125)I]Eotaxin to CHO cells transfected with human CCR3 with an IC(50) value of 2.3 nM. In human eosinophils, Compound X also inhibited Eotaxin-induced increases in intracellular Ca(2+) concentrations and chemotaxis. Thus, Compound X appears to be a highly potent CCR3 antagonist. These findings suggest that Compound X may be a useful tool for elucidating the pathophysiological roles of CCR3 in a variety of allergic disorders.     

Sequential 1H NMR assignments of kistrin, a potent platelet aggregation inhibitor and glycoprotein IIb-IIIa antagonist.

Sequence-specific nuclear magnetic resonances assignments have been obtained for the protons of kistrin. Kistrin is a small naturally occurring snake venom protein that inhibits platelet aggregation by blocking the interaction of fibrinogen with the membrane-bound glycoprotein IIb-IIIa (GP IIb-IIIa), a receptor from the integrin family. Kistrin has an Arg-Gly-Asp sequence which is believed to form an adhesion recognition sequence that is essential for activity. Therefore, the interaction between kistrin and GP IIb-IIIa may provide important information on the motif used by integrins to recognize their target proteins which bear RGD sequences. Kistrin consists of 68 residues and contains six intramolecular disulfide bonds. Although one-third of the amide protons are protected from exchange with the solvent, there appears to be little or no regular secondary structure. The large number of NOE's between residues separated by two and three positions in the sequence indicates that the protein contains a large number of tightly packed loops. Along with the sequential assignments, this paper also discusses the construction and use of computerized data bases for manipulating NMR results. A strategy for computer-assisted sequential resonance using these data bases is also presented.     

RP 67580, a potent and selective substance P non-peptide antagonist]

The pharmacological properties of 7,7-Diphenyl-2 [1-imino-2 (2-methoxy-phenyl)-ethyl] perhydroisoindol-4-one (3 aR, 7 aR) or RP67580 are described. This compound, derived from a novel chemical family, is a potent and selective substance P (SP) antagonist, in vitro and in vivo. In vitro, it inhibited in a competitive manner (IC50 = 10 nM) 3H-SP binding in rat brain (NK1 receptors). It did not interact with the two other tachykinin receptor sites (NK2 and NK3) nor the other receptor sites tested. Moreover, RP67580 competitively antagonized the contractile activity of SP on guinea-pig ileum (pA2 = 7.16); in contrast, it was inactive in rabbit pulmonary artery and in rat portal vein tissues which contain NK2 and NK3 receptors, respectively. In vivo, in the rat, RP67580 inhibited the plasmatic extravasation induced by administration of SP (ED50 = 0.04 mg/kg i.v.) as well as that induced by antidromic stimulation of a peripheral sensory nerve (ED50 = 0.15 mg/kg i.v.). In mice and rats, RP67580, like morphine, potently blocked the nociceptive effects of phenylbenzoquinone and formalin; its antinociceptive effect does not involve opiate receptors since it was not reversed by naloxone. These results indicate that RP67580 is a particularly valuable tool for investigating the physiological and pathological role of SP.     

Synthesis, in vitro pharmacology, and pharmacokinetic profiles of 2-[1-amino-1-carboxy-2-(9H-xanthen-9-yl)-ethyl]-1-fluorocyclopropanecarboxylic acid and its 6-heptyl ester, a potent mGluR2 antagonist

In this paper, we describe the synthesis of (+)-(1R( *),2R( *))-2-[(1S( *))-1-amino-1-carboxy-2-(9H-xanthen-9-yl)-ethyl]-1-fluorocyclopropanecarboxylic acid (+)-16a, a compound, that is, fluorinated at the alpha position of the carboxylic acid in the cyclopropane ring of a group II mGluRs antagonist, 1 (LY341495), using a previously reported stereoselective cyclopropanation reaction. The fluorinated compound (+)-16a exhibited almost the same affinity (IC(50)=3.49 nM) for mGluR2 as 1 but had a superior pharmacokinetic profile. Furthermore, a marked elevation of the plasma levels of (+)-16a was observed following the administration of a prodrug, (+)-17.     

Discovery of ORN0829, a potent dual orexin 1/2 receptor antagonist for the treatment of insomnia

Here, we present the design, synthesis, and SAR of dual orexin 1 and 2 receptor antagonists, which were optimized by balancing the antagonistic activity for orexin receptors and lipophilicity. Based on the prototype compound 1, ring construction and the insertion of an additional heteroatom into the resulting ring led to the discovery of orexin 1 and 2 receptor antagonists, which were 3-benzoyl-1,3-oxazinane derivatives. Within these derivatives, (−)-3h enabled a high dual orexin receptor antagonistic activity and a low lipophilicity. Compound (−)-3h exhibited potent sleep-promoting effects at a po dose of 1 mg/kg in a rat polysomnogram study, and optimal PK properties with a rapid T_max and short half-lives in rats and dogs were observed, indicating a predicted human half-life of 0.9–2.0 h. Thus, (−)-3h (ORN0829; investigation code name, TS-142) was selected as a viable candidate and is currently in clinical development for the treatment of insomnia.     

3,7-Dimethyl-1-propargylxanthine: a potent and selective in vivo antagonist of adenosine analogs

3,7-Dimethyl-1-propargylxanthine (DMPX), a caffeine analog that exhibits in vitro selectivity for A2-adenosine receptors, compared to A1-adenosine receptors, has now been investigated with respect to in vivo potency and selectivity. DMPX potently and selectively blocked the actions of the potent A2 adenosine agonist, 5'-N-ethylcarboxamidoadenosine (NECA), in DBA/2 mice, compared to blockade of the same responses elicited by the selective A1-adenosine agonist, N6-cyclohexyladenosine (CHA). DMPX was 57-fold more potent versus NECA-induced hypothermia than versus CHA-induced hypothermia and 11-fold more potent versus NECA-induced behavioral depression than versus CHA-induced behavioral depression. The hypothermia is mediated by peripheral receptors, based on blockade by 8-(p-sulfophenyl)theophylline (PSPT), while the behavioral depression is centrally mediated, based on lack of blockade by PSPT. DMPX was 28- and 15-fold more potent than caffeine in blocking peripheral and central NECA-responses, respectively. DMPX was equipotent with caffeine versus CHA-induced hypothermia and 2.5-fold more potent than caffeine versus CHA-induced behavioral depression. The motor stimulating potency of DMPX (ED50 10 mumol/kg) was slightly greater than caffeine.     

3-Phenyl-5-isothiazole carboxamides with potent mGluR1 antagonist activity

The disclosed 3-phenyl-5-isothiazole carboxamides are potent allosteric antagonists of mGluR1 with generally good selectivity relative to the related group 1 receptor mGluR5. Pharmacokinetic properties of a member of this series (1R,2R)-N-(3-(4-methoxyphenyl)-4-methylisothiazol-5-yl)-2-methylcyclopropanecarboxamide (14) are good, showing acceptable plasma and brain exposure after oral dosing. Oral administration of isothiazole 14 gave robust activity in the formalin model of persistent pain which correlated with CNS receptor occupancy.     

Discovery of SB-705498: a potent, selective and orally bioavailable TRPV1 antagonist suitable for clinical development

Small molecule antagonists of the vanilloid receptor TRPV1 (also known as VR1) are disclosed. Pyrrolidinyl ureas such as 8 and 15 (SB-705498) emerged as lead compounds following optimisation of the previously described urea SB-452533. Pharmacological studies using electrophysiological and FLIPR-Ca2+-based assays showed that compounds such as 8 and 15 were potent antagonists versus the multiple chemical and physical modes of TRPV1 activation (namely capsaicin, acid and noxious heat). Furthermore, 15 possessed suitable developability properties to enable progression of this compound into in vivo studies and subsequently clinical development.     

Identification,biological characterization and pharmacophoric analysis of a new potent and selective NK1 receptor antagonist clinical candidate

The last two decades have provided a large weight of preclinical data implicating the neurokinin-1 receptor (NK₁) and its cognate ligand substance P (SP) in a broad range of both central and peripheral disease conditions. However, to date, only the NK₁ receptor antagonist aprepitant has been approved as a therapeutic and this is to prevent chemotherapy-induced nausea & vomiting (CINV). The belief remained that the full therapeutic potential of NK₁ receptor antagonists had yet to be realized; therefore clinical evidence that NK₁ receptor antagonists may be effective in major depression disorder, resulted in a significant further investment in discovering novel CNS penetrant druggable NK₁ receptor antagonists to address this condition. At GlaxoSmithKline after the discovery of casopitant, that went on to demonstrate efficacy as a novel antidepressant in the clinic, additional novel analogues of this NK₁ receptor antagonist were designed to further enhance its drug developability characteristics. Herein, we therefore describe the discovery process and the vivo pharmacological and pharmacokinetic profile of the new NK₁ receptor antagonist 3a (also called orvepitant), selected as clinical candidate and further progressed into clinical studies for major depressive disorder. Moreover, molecular modeling studies enabled us to improve the pharmacophore model of the NK₁ receptor antagonists with the identification of a region able to accommodate a variety of heterocycle moieties.     

Eryloside F, a novel penasterol disaccharide possessing potent thrombin receptor antagonist activity

We report the discovery of Eryloside F, a novel disaccharide of the steroidal carboxylic acid penasterol, isolated from an extract of the marine sponge Erylus formosus. The compound is a potent thrombin receptor antagonist, and furthermore inhibits human platelet aggregation in vitro.