J. L. Herndon scite author profile

Ketanserin is the prototypic 5-HT2 serotonin antagonist; although it has been an important tool for the study of serotonin pharmacology, it has had relatively little impact on drug design because remarkably little is known about its structure-affinity relationships. Furthermore, ketanserin also binds at 5-HT1C receptors and even less is known about the influence of its structural features on 5-HT1C receptor affinity. The present study reveals that the fluoro and carbonyl groups of the 4-fluorobenzoyl portion of ketanserin make small contributions to 5-HT2 binding and that the intact benzoylpiperidine moiety is an important feature. Ring-opening of the piperidine ring reduces affinity. Although the quinazoline-2,4-dione moiety also contributes to binding, it appears to play a smaller role and can be structurally simplified with retention of 5-HT2 affinity. N-(4-Phenylbutyl)-4-(4-fluorobenzoyl)piperidine (39), for example, binds with nearly the same affinity (Ki = 5.3 nM) as ketanserin (Ki = 3.5 nM). All of the compounds examined bind at 5-HT1C sites with lower affinity than ketanserin, and some of the simplified analogues bind with nearly 10 times the 5-HT2 versus 5-HT1C selectivity of ketanserin; however, none displays > 120-fold selectivity. Several of the compounds, such as the amide 32 and the urea 33 represent examples of new structural classes of 5-HT2 ligands.

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Novel 1-phenylpiperazine and 4-phenylpiperidine derivatives as high-affinity .sigma. ligands

Glennon¹,

Yousif²,

Ismaiel³

et al. 1991

J. Med. Chem.

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sigma receptors may represent an exciting new approach for the development of novel psychotherapeutic agents. Unfortunately, many of the commonly used sigma ligands lack selectivity (e.g., many bind at phencyclidine or dopamine receptors) or suffer from other serious drawbacks. Recently, we described a series of 2-phenylaminoethanes that bind at sigma receptors with high affinity and selectivity. Because there is evidence that 1-phenylpiperazines can structurally mimic the 2-phenylaminoethane moiety, we prepared a series of 1-phenylpiperazines and related analogues and incorporated structural features already shown to enhance the sigma binding of the 2-phenylaminoethanes. Several of these derivatives bind at sigma receptors with high affinity (Ki = 1-10 nM) and lack appreciable affinity for phencyclidine and dopamine receptors. In as much as certain of these agents structurally resemble the high-affinity, but nonselective, sigma ligand haloperidol, and because they bind with 10 times the affinity of haloperidol, we have apparently identified what appears to be the primary sigma pharmacophore of that agent.

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Binding of substituted and conformationally restricted derivatives of N-(3-phenyl-n-propyl)-1-phenyl-2-aminopropane at .sigma.-receptors

Glennon

Ismaiel²,

Smith³

et al. 1991

J. Med. Chem.

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Certain benzomorphans, such as N-allylnormetazocine, are classical "sigma-opiates" that bind both at sigma and phencyclidine (PCP) binding sites with modest affinity. Recently, we identified N-substituted 2-phenylaminoethane as being the primary sigma-pharmacophore of the benzomorphans and demonstrated that 1-phenyl-2-aminopropane (2) derivatives, depending upon their terminal amine substituents, constitute a novel class of high-affinity sigma-selective agents. With this pharmacophore, it is shown in the present investigation that the aromatic hydroxyl group (a prime feature of all the sigma-opiates) contributes little to the binding of 2 at sigma-sites. It is also demonstrated that an N-substituted aminotetralin moiety (such as 17, a conformationally restricted analogue of 2) may also be considered a sigma-opiate pharmacophore. Unlike the sigma-opiates, derivatives of 2 and 17 display no affinity for PCP sites and must consequently lack those structural features important for the binding of benzomorphans at PCP sites. Because 3-phenylpiperidines and related sigma-ligands also possess a phenylalkylamine imbedded within their structures, we propose that the 2-phenylaminoethane moiety is a common sigma-pharmacophore for derivatives of 2, the 3-phenylpiperidines, and the sigma-opiates.

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Mechanistic investigation of the stimulus properties of 1-(3-trifluoromethylphenyl) piperazine

Herndon

Pierson

Glennon

1992

Pharmacology Biochemistry and Behavior

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Stimulus properties of arylpiperazines: NAN‐190, a potential 5‐HT_1A serotonin antagonist

Glennon

Naiman

Pierson

et al. 1989

Drug Development Research

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Glennon, R.A., N.A. Naiman, M.E. Pierson, M. Titeler, R.A. Lyon, J.L. Herndon, and B. Misenheimer: Stimulus properties of arylpiperazines: NAN-190, a potential 5-HTlA serotonin antagonist. Drug Dev. Res. 16:335-343, 1989.Arylpiperazines have been demonstrated to bind both at 5-HT,* and 5-HTlB serotonin receptors. In an attempt to design novel 5-HTIA agonists and antagonists, based on an arylpiperazine nucleus, we investigated the stimulus properties of a series of such agents (in rats trained to discriminate 0.5 mgikg of the 5-HTlB agent TFMPP from saline) to determine what structural features were important for 5-HTIB activity. This done, we modified these agents to eliminate those features and, at the same time, incorporated structural features that appeared important for 5-HTIA affinity. The resulting agents displayed high affinity for 5-HTlA sites. One agent in particular, neither mimicked nor antagonized the TFMPP stimulus, but was capable of antagonizing the stimulus produced by the 5-HTIA agonist 8-OH DPAT (0.2 mgikg). These preliminary results suggest that NAN-190 may be a potential 5-HTIA antagonist.

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J. L. Herndon

Ketanserin analogs: structure-affinity relationships for 5-HT2 and 5-HT1C serotonin receptor binding

Novel 1-phenylpiperazine and 4-phenylpiperidine derivatives as high-affinity .sigma. ligands

Binding of substituted and conformationally restricted derivatives of N-(3-phenyl-n-propyl)-1-phenyl-2-aminopropane at .sigma.-receptors

Mechanistic investigation of the stimulus properties of 1-(3-trifluoromethylphenyl) piperazine

Stimulus properties of arylpiperazines: NAN‐190, a potential 5‐HT_1A serotonin antagonist

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J. L. Herndon

Ketanserin analogs: structure-affinity relationships for 5-HT2 and 5-HT1C serotonin receptor binding

Novel 1-phenylpiperazine and 4-phenylpiperidine derivatives as high-affinity .sigma. ligands

Binding of substituted and conformationally restricted derivatives of N-(3-phenyl-n-propyl)-1-phenyl-2-aminopropane at .sigma.-receptors

Mechanistic investigation of the stimulus properties of 1-(3-trifluoromethylphenyl) piperazine

Stimulus properties of arylpiperazines: NAN‐190, a potential 5‐HT1A serotonin antagonist

Contact Info

Product

Resources

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Stimulus properties of arylpiperazines: NAN‐190, a potential 5‐HT_1A serotonin antagonist