Non-peptide calcitonin gene-related peptide receptor antagonists from a benzodiazepinone lead

High-throughput screening of the Merck sample collection identified benzodiazepinone tetralin-spirohydantoin 1 as a CGRP receptor antagonist with micromolar activity. Comparing the structure of 1 with those of earlier peptide-based antagonists such as BIBN 4096 BS, a key hydrogen bond donor-acceptor pharmacophore was hypothesized. Subsequent structure activity studies supported this hypothesis and led to benzodiazepinone piperidinyldihydroquinazolinone 7, CGRP receptor K(i)=44nM and IC(50)=38nM. Compound 7 was orally bioavailabile in rats and is a lead in the development of orally bioavailable CGRP antagonists for the treatment of migraine.     

A new octopamine receptor class in locust nervous tissue, the octopamine 3 (OA3) receptor.

The insect neuronal 3H-octopamine binding site represents a new type of octopamine receptor. This receptor has pharmacological features that are characteristic for all known octopamine receptors, but it is possible to distinguish this receptor class from all others using either agonists or antagonists. The quantitative determination of the pharmacological relationships to the other octopamine receptor classes could demonstrate greatest homology with both class 2 (OA2A and OA2B) receptors. Therefore, the neuronal octopamine receptor should be named a class 3 receptor (OA3). A new and simple classification scheme for octopamine receptors which enables classification of the new receptor class is established using antagonists.     

Pyrrolinone derivatives as a new class of P2X3 receptor antagonists. Part 1: Initial structure-activity relationship studies of a hit from a high throughput screening

The P2X3 receptor is primarily expressed in the peripheral sensory nerves, and therefore, antagonists of this receptor may be useful for the treatment of chronic pain. Pyrrolinone derivatives have been identified as a novel class of P2X3 receptor antagonists. A lead structure with moderate activity was discovered through a high-throughput screening assay. A structure-activity study led to the discovery of several P2X3 receptor antagonists. Compound 34 showed potent and specific antagonistic activity and analgesic efficacy.     

Discovery of 2-substituted benzoxazole carboxamides as 5-HT3 receptor antagonists

A new class of 2-substituted benzoxazole carboxamides are presented as potent functional 5-HT(3) receptor antagonists. The chemical series possesses nanomolar in vitro activity against human 5-HT(3)A receptors. A chemistry optimization program was conducted and identified 2-aminobenzoxazoles as orally active 5-HT(3) receptor antagonists with good metabolic stability. These novel analogues possess drug-like characteristics and have potential utility for the treatment of diseases attributable to improper 5-HT(3) receptor function, especially diarrhea predominant irritable bowel syndrome (IBS-D).     

Identification of novel non-peptide CXCR4 antagonists by ligand-based design approach

The design and synthesis of novel non-peptide CXCR4 antagonists is described. The peptide backbone of highly potent cyclic peptide-based CXCR4 antagonists was entirely replaced by an indole framework, which was expected to reproduce the disposition of the key pharmacophores consistent with those of potential bioactive conformations of the original peptides. A structure–activity relationship study on a series of modified indoles identified novel small-molecule antagonists having three pharmacophore functional groups through the appropriate linkers.     

Piperazinyl oxime ethers as NK-1 receptor antagonists

The synthesis and structure-activity relations for a new class of centrally active NK-1 receptor antagonists are described. The new compounds are based on piperazine 2 and contain an oxime ether functionality. Several new compounds have high affinity for the NK-1 receptor and show good antagonistic activity in the gerbil foot-tapping assay.     

A new class of androgen receptor antagonists bearing carborane in place of a steroidal skeleton

A new class of androgen receptor antagonists containing dicarba-closo-dodecaborane (carborane) as a hydrophobic skeletal structure is described. The designed molecules bear the characteristic polar components of endogenous agonists, but have a hydrophobic carborane cage instead of the steroidal skeleton. These compounds bind to androgen receptor and show anti-androgenic activity towards androgen-dependent SC-3 cells with almost the same potency as the known anti-androgen hydroxyflutamide.     

Synthesis and evaluation of a new series of peptide-based endothelin receptor antagonists.

Novel peptide-based endothelin (ET) receptor antagonists were designed and synthesized in our laboratory. BQ-485, HIM-CO-Leu-d-Trp-d-Trp-OH, was selected as the leading compound. The primary structures of these new tripeptides were ABO-CO-Leu-d-Trp-d-AA(X)-OH. The introduction of unnatural aromatic amino acids into these tripeptides was useful in the structure-activity relationship studies. Among the 20 tripeptides, 16 of them showed high activities against the contraction of rat aortic smooth muscles induced by ET-1.     

Development of prostaglandin D2 receptor antagonist: discovery of highly potent antagonists

The process of discovery for highly potent prostaglandin D(2) (PGD(2)) receptor antagonists is reported. A series of N-(p-alkoxy)benzoyl-2-methylindole-4-acetic acids were synthesized and identified as a new class of selective PGD(2) receptor antagonists. Most of them exhibited strong PGD(2) receptor antagonism in binding studies and the cAMP formation assay. The structure-activity relationships (SAR), including subtype selectivity of the synthesized compounds, are also discussed.     

Isoindolines: a new series of potent and selective endothelin-A receptor antagonists.

1,3-Disubstituted isoindolines have been discovered as a new class of potent functional ET(A) selective receptor antagonists through pharmacophore analysis of existing nonpeptide endothelin antagonists. The structure-activity relationships for both the trans and the cis series of isoindolines are discussed.     

Structure-activity relationship studies of carboxamido-biaryl ethers as opioid receptor antagonists (OpRAs). Part 1

A structurally unique and new class of opioid receptor antagonists (OpRAs) that bear no structural resemblance with morphine or endogenous opioid peptides has been discovered. A series of carboxamido-biaryl ethers were identified as potent receptor antagonists against mu, kappa and delta opioid receptors. The structure-activity relationship indicated para-substituted aryloxyaryl primary carboxamide bearing an amine tether on the distal phenyl ring was optimal for potent in vitro functional antagonism against three opioid receptor subtypes.     

Synthesis and structure–activity relationships of 2-(1,4′-bipiperidin-1′-yl)thiazolopyridine as H3 receptor antagonists

A series of 2-(1,4′-bipiperidine-1′-yl)thiazolopyridines was synthesized and evaluated as a new lead of non-imidazole histamine H₃ receptor antagonists. Introduction of diversity at the 6-position of the pyridine ring was designed to enhance in vitro potency and decrease hERG activity. The structure–activity relationships for these new thiazolopyridine antagonists are discussed.     

A new class of bradykinin 1 receptor antagonists containing the piperidine acetic acid tetralin core

The bradykinin 1 (B1) receptor is upregulated during times of inflammation and is important for maintaining inflamed and chronic pain states. Blocking this receptor has been shown to reverse and/or ameliorate pain and inflammation in animal models. In this report, we describe a new class of B1 receptor antagonists that contain the piperidine acetic acid tetralin core. A structure-activity relationship for these analogs is described in this paper. The most potent compounds from this class have IC50s<20 nM in a B1 receptor functional assay. One of these compounds, 13g, shows modest oral bioavailability in rats.     

Introduction of alkynyl chains on C-8 of adenosine led to very selective antagonists of the A(3) adenosine receptor.

Some 8-alkynyladenosines were synthesized and evaluated for their adenosine receptor activity, utilizing radioligand binding studies (A(1), A(2A), A(3)) or adenylyl cyclase activity assays (A(2B)). Furthermore, the maximal induction of guanosine 5'-(gamma-thio)triphosphate ([35S]GTPgammaS) binding to G proteins and the inhibition of NECA-stimulated binding, in membranes of CHO cells which express the human A(3) receptor, were used to determine the intrinsic activity of these nucleosides at the A(3) adenosine receptor. The results showed that these new adenosine derivatives are very selective ligands for the A(3) receptor subtype and behave as adenosine antagonists, since they do not stimulate basal [35S]GTPgammaS binding, but inhibit NECA-stimulated binding. This is the first report that adenosine derivatives, with unmodified ribose moiety, are adenosine receptor antagonists.     

Dopamine/serotonin receptor ligands. Part 17: a cross-target SAR approach: affinities of azecine-styled ligands for 5-HT(2A) versus D1 and D2 receptors

Dibenzo- and benzindolo-azecines represent a novel class of high-affinity dopamine receptor antagonists. To further characterize these drugs as potential neuroleptics, we selected a set of azecine derivatives and ring expanded homologues and we measured their antagonist activity at the 5-HT(2A) receptor in the porcine coronary artery. SARs found for the 5-HT(2A) receptor resemble those for the D1 but not the D2 receptor. The protein-ligand interactions were discussed with respect to the different binding pockets.     

Design, synthesis, and evaluation of non-steroidal farnesoid X receptor (FXR) antagonist

A series of substituted-isoxazole derivatives was prepared as candidate farnesoid X receptor (FXR) antagonists, based on our previously proposed ligand superfamily concept. Structure-activity relationship studies indicated that the shape and the structural bulkiness of the substituent at the 5-position of the isoxazole ring affected FXR-antagonistic activity. Compounds 15 g (5-substituent: 2-naphthyl) and 15 h (5-substituent: 4-biphenyl) were identified as potent antagonists with higher selectivity for FXR over progesterone receptor than the naturally occurring FXR antagonist GS. The 5-substituent is also a critical determinant of the characteristic corepressor recruitment profile of this class of FXR antagonists, though distinct mechanisms appear to be involved: 15 h stabilizes the corepressor-nuclear receptor interaction, while 15 g inhibits coactivator recruitment.     

New therapies for the treatment of Parkinson's disease: adenosine A2A receptor antagonists

The development of non-dopaminergic therapies for the treatment of Parkinson's disease (PD) has attracted much interest in recent years. Among new different classes of drugs, adenosine A2A receptor antagonists have emerged as best candidates. The present review will provide an updated summary of the results reported in literature concerning the effects of adenosine A2A antagonists in rodent and primate models of PD. These results show that A2A receptor antagonists improve motor deficits without inducing dyskinesia and counteract parkinsonian tremor. In progress clinical trials have shown that a low dose of L-DOPA plus KW-6002 produced symptomatic relief no different from that produced by an optimal dose of L-DOPA alone, whereas dyskinesias were reduced rendering this class of compounds particularly attractive.     

Discovery of antagonists of tick dopamine receptors via chemical library screening and comparative pharmacological analyses

Ticks transmit a wide variety of disease causing pathogens to humans and animals. Considering the global health impact of tick-borne diseases, there is a pressing need to develop new methods for vector control. We are exploring arthropod dopamine receptors as novel targets for insecticide/acaricide development because of their integral roles in neurobiology. Herein, we developed a screening assay for dopamine receptor antagonists to further characterize the pharmacological properties of the two D₁-like dopamine receptors (Isdop1 and Isdop2) identified in the Lyme disease vector, Ixodes scapularis, and develop a screening assay for receptor antagonists. A cell-based, cyclic AMP luciferase reporter assay platform was implemented to screen the LOPAC¹²⁸⁰ small molecule library for Isdop2 receptor antagonists, representing the first reported chemical library screen for any tick G protein-coupled receptor. Screening resulted in the identification of 85 “hit” compounds with antagonist activity at the Isdop2 receptor. Eight of these chemistries were selected for confirmation assays using a direct measurement of cAMP, and the effects on both Isdop1 and Isdop2 were studied for comparison. Each of these eight compounds showed antagonistic activity at both Isdop1 and Isdop2, although differences were observed regarding their relative potencies. Furthermore, comparison of the pharmacological properties of the tick dopamine receptors with that of the AaDOP2 receptor from the yellow fever mosquito and the human dopamine D₁ receptor (hD₁) revealed species-specific pharmacological profiles of these receptors. Compounds influencing dopaminergic functioning, such as the dopamine receptor antagonists discovered here, may provide lead chemistries for discovery of novel acaricides useful for vector control.