Mike D. Powers scite author profile

Given that mu opioid (MOP) and canabinoid (CB1) receptors are co-localized in various regions of the CNS and have been reported to associate as heteromer (MOP-CB1) in cultured cells has raised the possibility of functional, endogenous MOP-CB1 in nociception and other pharmacologic effects. As a first step in investigating this possibility, we have synthesized a series of bivalent ligands 1-5 that contain both mu agonist and CB1 antagonist pharmacophores for use as tools to study the functional interaction between MOP and CB1 receptors in vivo. Immunofluorescent studies on HEK293 cells co-expressing both receptors suggested 5 (20-atom spacer) to be the only member of the series that bridges the protomers of the heteromer. Antinociceptive testing in mice revealed 5 to be the most potent member of the series. As neither a mixture of monovalent ligands 9 + 10 nor bivalents 2-5 produced tolerance in mice, MOR-CB1 apparently is not an important target for reducing tolerance.

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Discovery of Polypharmacological Melanocortin-3 and -4 Receptor Probes and Identification of a 100-Fold Selective nM MC3R Agonist versus a μM MC4R Partial Agonist

Fleming

Freeman

Powers

et al. 2019

J. Med. Chem.

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The centrally expressed melanocortin-3 and melanocortin-4 receptors (MC3R, MC4R) are established targets to treat diseases of positive and negative energy homeostasis. We previously reported (J. Med. Chem. 60:4342 2017) mixture-based positional scanning approaches to identify dual MC3R agonist and MC4R antagonist tetrapeptides. Herein, 46 tetrapeptides were chosen for MC3R agonist screening selectivity profiles, synthesized, and pharmacologically characterized at the mouse melanocortin-1, −3, −4, and −5 receptors. Substitutions to the tetrapeptide template were selected solely based on MC3R agonist potency from the mixture-based screen. This study resulted in the discovery of compound 42 (Ac-Val-Gln-(pI)DPhe-DTic-NH 2 ), a full MC3R agonist that is 100-fold selective for the MC3R over the µM MC4R partial agonist pharmacology. This compound represents a first-in-class MC3R-selective agonist. This ligand will serve as a useful in vivo molecular probe for the investigation of the roles of the MC3R and MC4R in diseases of dysregulated energy homeostasis.

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Opioid Activity of Spinally Selective Analogues ofN-Naphthoyl-β-naltrexamine in HEK-293 Cells and Mice

et al. 2012

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Using the selective mu-kappa agonist, NNTA 1, as the prototype ligand, a series of closely related naphthalene analogues were synthesized to study the chemical space around the naphthalene moiety in an effort to evaluate how receptor selectivity is affected by chemical modification. Nine analogues (2–10) of compound 1 were synthesized and tested on HEK-293 cells expressing homomeric and heteromeric opioid receptors, and in the mouse tail-flick assay. It was found that a small change in structure produces profound changes in selectivity in this series. This is exemplified by the discovery that introduction of a 6-fluoro group transforms 1 from a selective mu-kappa heteromeric receptor agonist to a delta-preferring agonist 7. The in vivo studies reveal that many of the ligands are more potent spinally than supraspinally and devoid of tolerance.

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Development of high-affinity 5-HT3 receptor antagonists. 1. Initial structure-activity relationship of novel benzamides

Youssefyeh¹,

Campbell²,

Klein³

et al. 1992

J. Med. Chem.

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This report describes the development of novel benzamides which are orally active, highly potent, specific antagonists of 5-HT3 receptors. Described in this first report are the structure-activity relationships that led to novel structures with improved potency and selectivity. From this series of compounds, (S)-28 was identified and selected for further evaluation as a 5-HT3 receptor antagonist. Compared with 5-HT3 antagonists such as GR 38032F, BRL 43694, and metoclopramide, (S)-28 was most active in (a) inhibiting binding to 5-HT3 receptor binding sites in rat entorhinal cortex with an Ki value of 0.19 nM and (b) blocking cisplatin-induced emesis in the ferret with an ED50 value determined to be 9 micrograms/kg po.

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Development of high-affinity 5-HT3 receptor antagonists. 2. Two novel tricyclic benzamides

Youssefyeh¹,

Campbell²,

Airey³

et al. 1992

J. Med. Chem.

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Two new classes of potent 5-HT3 agents have been developed and examined as inhibitors of cytotoxic drug induced emesis in the ferret and dog. The absolute configuration of the most active molecules 10 and 18 have been determined by X-ray crystallography. These two compounds are more potent than known 5-HT3 receptor antagonists both in vivo and in vitro in blocking 5-HT3 receptor activation and preventing chemotherapeutic induced emesis. Compared with 5-HT3 antagonists, such as GR 38032F, zacopride, BRL 43694, and ICS 205-930, compound 10 was more potent in (1) inhibiting binding to 5-HT3 receptor binding sites in rat cortex (Ki = 0.17 nM), (2) blocking the von Bezold-Jarisch effect in the rat (lowest effective dose, 1 microgram/kg iv), and (3) inhibiting 5-HT-induced contraction of guinea pig ileum (lowest effective concentration, 10(-9) M). This novel agent was as effective given po as when given iv in reducing cisplatin-induced emetic episodes in the ferret (ED50 = 4 micrograms/kg iv or po). A 1 mg/kg po dose of 10 virtually abolished cisplatin-induced emesis for 10 h in the ferret. However, it was inactive against apomorphine or copper sulfate-induced vomiting. These data, coupled with receptor binding studies of ligands for D2-dopamine, a1, a2, 5-HT1, 5-HT2, and muscarinic receptors demonstrate that 10 is a highly selective 5-HT3 receptor antagonist with remarkable potency in vivo.

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Mike D. Powers

Bivalent Ligands That Target μ Opioid (MOP) and Cannabinoid1 (CB₁) Receptors Are Potent Analgesics Devoid of Tolerance

Discovery of Polypharmacological Melanocortin-3 and -4 Receptor Probes and Identification of a 100-Fold Selective nM MC3R Agonist versus a μM MC4R Partial Agonist

Opioid Activity of Spinally Selective Analogues ofN-Naphthoyl-β-naltrexamine in HEK-293 Cells and Mice

Development of high-affinity 5-HT3 receptor antagonists. 1. Initial structure-activity relationship of novel benzamides

Development of high-affinity 5-HT3 receptor antagonists. 2. Two novel tricyclic benzamides

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Resources

About

Mike D. Powers

Bivalent Ligands That Target μ Opioid (MOP) and Cannabinoid1 (CB1) Receptors Are Potent Analgesics Devoid of Tolerance

Discovery of Polypharmacological Melanocortin-3 and -4 Receptor Probes and Identification of a 100-Fold Selective nM MC3R Agonist versus a μM MC4R Partial Agonist

Opioid Activity of Spinally Selective Analogues ofN-Naphthoyl-β-naltrexamine in HEK-293 Cells and Mice

Development of high-affinity 5-HT3 receptor antagonists. 1. Initial structure-activity relationship of novel benzamides

Development of high-affinity 5-HT3 receptor antagonists. 2. Two novel tricyclic benzamides

Contact Info

Product

Resources

About

Bivalent Ligands That Target μ Opioid (MOP) and Cannabinoid1 (CB₁) Receptors Are Potent Analgesics Devoid of Tolerance