We studied the pharmacological properties of twenty-four 5-hydroxytryptamine (5-HT)(4) receptor ligands known to act as antagonists on 5-HT(4) receptors positively coupled to adenylyl cyclase endogenously expressed in mouse colliculi neurons. In COS-7 cells expressing human or mouse 5-HT(4(a)) receptors (100-8000 fmol/mg of protein), we found neutral antagonists, partial agonists, and inverse agonists. The majority of neutral antagonists belong to the benzodioxanyl ketone class, whereas partial agonists belong to different chemical classes. We found only two inverse agonists, GR 125487 and SB 207266, which are both indoles. Analysis of pharmacological characteristics of the constitutively active wild-type and constitutively active mutated receptors revealed that 1) the ratio between the efficiencies of the full agonist 5-HT and the partial agonist RS 23597 was invariable when the receptor density increased, but was dependent on receptor structure; 2) similarly, the efficacy of the inverse agonist SB 207266 was not dependent on receptor density but was dependent on receptor structure; 3) when the receptor concentration increased, the EC(50) values of the full agonist 5-HT were not modified and the increase in basal constitutive activity, as well as its stimulation by 5-HT, followed a parallel evolution; and 4) the stimulation of basal constitutive activity by 5-HT was not modified by the overexpression of Galphas. All these results indicate that in COS-7 cells, the coupling of the 5-HT(4) receptor to adenylyl cyclase was linear with no indication of spare receptors even at high receptor density (8 pmol/mg). These results are also in accordance with a precoupling between the activated receptor (f(R*)) and adenylyl cyclase. Such observations allowed us to use the two-state model to calculate the constant J, i.e., the equilibrium allosteric constant denoting the ratio of the receptor in the inactive versus active state (J = [R]/[R*]). We found that J was a receptor structural characteristic, independent of receptor density.

01 May 1998·Journal of medicinal chemistryQ1 · MEDICINE

Synthesis and Structure−Activity Relationships of Potent and Orally Active 5-HT₄ Receptor Antagonists: Indazole and Benzimidazolone Derivatives

Q1 · MEDICINE

Article

Author: Susemichel, Alice D. ; Thompson, Dennis C. ; Cohen, Marlene L. ; Calligaro, David O. ; Schaus, John M. ; Bloomquist, William E.

A series of indole-3-carboxamides, indazole-3-carboxamides, and benzimidazolone-3-carboxamides was synthesized and evaluated for antagonist affinity at the 5-HT4 receptor in the rat esophagus. The endo-3-tropanamine derivatives in the indazole and benzimidazolone series possessed greater 5-HT4 receptor affinity than the corresponding indole analogues. 5-HT4 receptor antagonist affinity was further increased by alkylation at N-1 of the aromatic heterocycle. In a series of 1-isopropylindazole-3-carboxamides, replacement of the bicyclic tropane ring system with the monocyclic piperidine ring system or an acyclic aminoalkylene chain led to potent 5-HT4 receptor antagonists. In particular, those systems in which the basic amine was substituted with groups capable of forming hydrogen bonds showed increased 5-HT4 receptor antagonist activity. While some of these compounds displayed high affinity for other neurotransmitter receptors (in particular, 5-HT3, alpha1, and 5-HT2A receptors), as the conformational flexibility of the amine moiety increased, the selectivity for the 5-HT4 receptor also increased. From this series of compounds, we identified LY353433 (1-(1-methylethyl)-N-[2-[4-[(tricyclo[3.3.1.1(3, 7)]dec-1-ylcarbonyl)amino]-1-piperidinyl]ethyl]-1H-indazole-3- carboxamide) as a potent and selective 5-HT4 receptor antagonist with clinically suitable pharmacodynamics.

01 Apr 1998·DRUG DEVELOPMENT RESEARCH

Comparative 5-HT4 receptor antagonist activity of LY353433 and its active hydroxylated metabolites

Author: Bloomquist, William ; Cohen, Marlene L. ; Calligaro, David ; Swanson, Steven

LY353433 is a selective, potent, and orally active 5-HT₄ receptor antagonist with a long duration of pharmacol. activity following its oral administration to rats.After oral administration of LY353433 (100 mg/kg) to rats, peak plasma concentration of the parent material was approx. 25 ng/mL and rapidly declined such that 4 h after administration, plasma concentration of the parent material was barely detectable.However, two addnl. peaks (LY343031 and LY343032) were observed in plasma via HPLC and subsequently identified as hydroxylated metabolites of LY353433.Peak plasma concentrations of LY343031 (approx. 50 ng/mL) and of LY343032 (approx. 150 ng/mL) were achieved within 1 h after the oral administration of LY353433.Furthermore, plasma concentrations of these metabolites were maintained for several hours and declined more slowly than plasma concentrations of the parent material.Both metabolites inhibited esophageal 5-HT₄ receptors in a concentration range similar to that observed with LY353433.In addition, the receptor selectivity profiles for LY343031 and LY343032 were similar to that of LY353433 at α₁, α₂, β, Dopamine D₁, Dopamine D₂, benzodiazapine, histamine H₁, GABA_A, 5-HT₂, and muscarinic receptors.Thus, these hydroxylated derivatives of LY353433 were potent and selective 5-HT₄ receptor antagonists in vitro.Lastly, using ex vivo esophageal relaxation to serotonin to assess 5-HT₄ receptor antagonism, these compounds were less active after oral administration to rats than LY353433.Thus, the long duration of pharmacol. activity observed after oral administration of LY353433 is likely related not only to the 5-HT₄ receptor antagonist activity of the parent mol., but also to the 5-HT₄ receptor antagonist activity associated with its two hydroxylated metabolites.

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Indication	Highest Phase	Country/Location	Organization	Date
Dyspepsia	Preclinical	United States	Eli Lilly & Co.	02 May 1998
Gastroesophageal Reflux	Preclinical	United States	Eli Lilly & Co.	02 May 1998
Irritable Bowel Syndrome	Preclinical	United States	Eli Lilly & Co.	02 May 1998

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