C-terminal peptides of calcitonin gene-related peptide act as agonists at the cholecystokinin receptor

We have previously described that [Tyr⁰]CGRP(28–37) acts as a receptor antagonist of rat CGRP in guinea pig pancreatic acini. We therefore examined other C-terminal peptides of CGRP for such activity. CGRP-acetyl(28–37) acetate did act as a rat CGRP antagonist. However, C-terminal CGRP peptides of 4 to 8 amino acid residues did not antagonize the actions of rat CGRP but stimulated amylase secretion. In pancreatic acini, a maximally effective concentration of rat CGRP (100 nM) caused a 2.1-fold increase in amylase secretion. When the C-terminal peptides of CGRP were tested in at 100 μM, CGRP(34–37) caused a 1.8-fold increase in amylase secretion, CGRP(33–37) a 2.8-fold increase, CGRP(32–37) a 9.2-fold increase, CGRP(31–37) a 4.1-fold increase, and CGRP(30–37) a 5.1-fold increase. Further studies with the most effective peptide, CGRP(32–37), demonstrated that it did not cause release of lactate dehydrogenase, and thus did not cause amylase release by cell damage. Unlike rat CGRP, CGRP(32–37) did not increase cellular cyclic AMP, but did stimulate outflux of ⁴⁵Ca. CGRP(32–37)-stimulated amylase release was not inhibited by the substance P receptor antagonist, spantide, by the bombesin receptor antagonist, [D-Phe⁶]bombesin(6–13) propylamide, or by the muscarinic receptor antagonist, atropine, but was inhibited by the CCK receptor antagonist L364,718. C-terminal peptides of CGRP inhibited binding of ¹²⁵I-BH-CCK-8, with the relative potencies of the peptides being the same as their relative potencies for stimulating amylase secretion. The present data demonstrate that C-terminal peptides of CGRP, although they have only 2 amino acid residues in common with CCK(26–33), act exclusively at CCK receptors on pancreatic acini to stimulate amylase secretion.     

Acceleration of ulcer healing by cholecystokinin (CCK): role of CCK-A receptors, somatostatin, nitric oxide and sensory nerves.

CCK exhibits a potent cytoprotective activity against acute gastric lesions, but its role in ulcer healing has been little examined. In this study we determined whether exogenous CCK or endogenously released CCK by camostate, an inhibitor of luminal proteases, or by the diversion of pancreatico-biliary secretion from the duodenum, could affect ulcer healing. In addition, the effects of antagonism of CCK-A receptors (by loxiglumide, LOX) or CCK-B receptors (by L-365,260), an inhibition of NO-synthase by N(G)-nitro-L-arginine (L-NNA), or sensory denervation by large neurotoxic dose of capsaicin on CCK-induced ulcer healing were examined. Gastric ulcers were produced by serosal application of acetic acid and animals were sacrificed 9 days after ulcer induction. The area of ulcers and blood flow at the ulcer area were determined. Plasma levels of gastrin and CCK and luminal somatostatin were measured by RIA and mucosal biopsy samples were taken for histological evaluation and measurement of DNA synthesis. CCK given s.c. reduced dose dependently the ulcer area; the threshold dose of CCK being 1 nmol/kg and the dose inhibiting this area by 50% being 5 nmol/kg. This healing effect of CCK was accompanied by a significant increase in the GBF at ulcer margin and the rise in luminal NO production, plasma gastrin level and DNA synthesis. Concurrent treatment with LOX, completely abolished the CCK-8-induced acceleration of the ulcer healing and the rise in the GBF at the ulcer margin, whereas L-365,260 remained without any influence. Treatment with camostate or diversion of pancreatic juice that raised plasma CCK level to that observed with administration of CCK-8, also accelerated ulcer healing and this effect was also attenuated by LOX but not by L-365,260. Inhibition of NO-synthase by L-NNA significantly delayed ulcer healing and reversed the CCK-8 induced acceleration of ulcer healing, hyperemia at the ulcer margin and luminal NO release, and these effects were restored by the addition to L-NNA of L-arginine but not D-arginine. Capsaicin denervation attenuated CCK-induced ulcer healing, and the accompanying rise in the GBF at the ulcer margin and decreased plasma gastrin and luminal release of somatostatin when compared to those in rats with intact sensory nerves. Detectable signals for CCK-A and B receptor mRNAs as well as for cNOS mRNA expression were recorded by RT-PCR in the vehicle control gastric mucosa. The expression of CCK-A receptor mRNA and cNOS mRNA was significantly increased in rats treated with CCK-8 and camostate, whereas CCK-B receptor mRNA remained unaffected. We conclude that CCK accelerates ulcer healing by the mechanism involving upregulation of specific CCK-A receptors, enhancement of somatostatin release, stimulation of sensory nerves and hyperemia in the ulcer area, possibly mediated by NO.     

Anorexic effect of peripheral cholecystokinin (CCK) varies with age and body composition (short communication)

Obesity of middle-aged mammals is followed at old age by anorexia and cachexia leading to sarcopenia. Complex age- and body composition-related alterations in the regulation of energy homeostasis may be assumed in the background. We aimed to test the possible contribution of age- and body composition-related changes of satiety responses to catabolic brain-gut-axis peptide cholecystokinin (CCK) to these alterations in energy balance during aging. Male Wistar rats (6-8 animals/group) aged 2 months (juvenile), 3 months (young adult), 6 or 12 months (early or late middle-aged), and 24 months (old) were injected intraperitoneally with 5 μg CCK-8 prior to re-feeding after 48-h food-deprivation. CCK suppressed re-feeding in young adult (26.8%), early middle-aged (35.5%), and old (31.4%) animals, but not in juvenile or late middle-aged rats (one-way ANOVA). CCK-resistance of 12 months old rats was prevented by life-long calorie-restriction: CCK suppressed their re-feeding by 46.8%. Conversely, in highfat diet-induced obese 6 months old rats CCK failed to suppress re-feeding. In conclusion, age-related changes in satiety responsiveness to CCK may contribute to the age-related obesity of middle-aged as well as to the anorexia of old animals. CCK-responsiveness is also influenced by body composition: calorie-restriction prevents the resistance to CCK, pre-existing obesity enhances it.     

Indoline derivatives as 5-HT(2C) receptor agonists

A series of 1-(1-indolinyl)-2-propylamines was synthesised and evaluated as 5-HT(2C) receptor agonists for the treatment of obesity. The general methods of synthesis of the precursor indoles are described. The functional efficacy and radioligand binding data for all of the compounds at 5-HT(2) receptor subtypes are reported. A number of compounds were found to reduce food intake in rats after oral administration.     

Potent benzimidazolone based human beta(3)-adrenergic receptor agonists

The synthesis and biological evaluation of a series of benzimidazolone beta(3) adrenergic receptor agonists are described. A trend toward the reduction of rat atrial tachycardia upon increasing steric bulk at the 3-position of the benzimidazolone moiety was observed.     

5-Alkylated thiazolidinones as follicle-stimulating hormone (FSH) receptor agonists

We prepared analogs of potent thiazolidinone-based follicle-stimulating hormone (FSH) agonists 1, that is, 3 that contained an additional 5-alkyl substituent. This extra substituent was added to reduce synthetic problems that arose during preparation of analogs of 1. These compounds (3) were evaluated in a Chinese hamster ovary (CHO) cell line that expressed recombinant human FSH receptor (FSHR) and a luciferase reporter gene regulated by a cAMP response element (CRE). Selected compounds were also tested on a CHO-cell line that over expressed the FSHR for the ability to induce cAMP production. When the 5-alkyl substituent was a methyl group as in analog 16a, similar FSH activity (i.e., EC(50) = 51 nM, 100% efficacy relative to hFSH) to the analogous 5-hydrogen series compound (e.g., 2) was observed; thus, proving that a small 5-alkyl substituent was well tolerated. New derivatives of 3, in which the potentially hydrolytically labile secondary amide function of 1 (-CONH-) was modified to other moieties (e.g., -CH(2)NH-, -CH(2)S-, and -CH(2)OCONH-), were also prepared and evaluated. These congeners (namely 21, 22, and 24) also displayed good potency in the CRE-luciferase assay.     

Identification of potent pyrazole based APELIN receptor (APJ) agonists

The apelinergic system comprises the apelin receptor and its cognate apelin and elabela peptide ligands of various lengths. This system has become an increasingly attractive target for pulmonary and cardiometabolic diseases. Small molecule regulators of this receptor with good drug-like properties are needed. Recently, we discovered a novel pyrazole based small molecule agonist 8 of the apelin receptor (EC₅₀ = 21.5 µM, K_i = 5.2 µM) through focused screening which was further optimized to initial lead 9 (EC₅₀ = 0.800 µM, K_i = 1.3 µM). In our efforts to synthesize more potent agonists and to explore the structural features important for apelin receptor agonism, we carried out structural modifications at N1 of the pyrazole core as well as the amino acid side-chain of 9. Systematic modifications at these two positions provided potent small molecule agonists exhibiting EC₅₀ values of <100 nM. Recruitment of β-arrestin as a measure of desensitization potential of select compounds was also investigated. Functional selectivity was a feature of several compounds with a bias towards calcium mobilization over β-arrestin recruitment. These compounds may be suitable as tools for in vivo studies of apelin receptor function.     

High-affinity and selective dopamine D(3) receptor full agonists

We have designed, synthesized and evaluated a series of new compounds with the goal to identify potent and selective D(3) ligands. The two most potent and selective new D(3) ligands are compounds 38 and 52, which bind to the D(3) receptors with a K(i) value of <1nM and display a selectivity of 450-494 times over the D(2) receptors and >10,000 times over the D(1) receptors. Both 38 and 52 are full agonists with high potency at the D(3) receptor in a D(3) functional assay.     

Pyrrolo(iso)quinoline derivatives as 5-HT(2C) receptor agonists

A series of 1-(1-pyrrolo(iso)quinolinyl)-2-propylamines was synthesised and evaluated as 5-HT(2C) receptor agonists for the treatment of obesity. The general methods of synthesis of the precursor indoles are described. The functional efficacy and radioligand binding data for the compounds at 5-HT(2) receptor subtypes are reported. The analogue which showed the highest 5-HT(2C) binding affinity (27, 1.6nM) was found to be successful in reducing food intake in rats.     

Molecular basis for binding and subtype selectivity of 1,4-benzodiazepine antagonist ligands of the cholecystokinin receptor

Allosteric binding pockets in peptide-binding G protein-coupled receptors create opportunities for the development of small molecule drugs with substantial benefits over orthosteric ligands. To gain insights into molecular determinants for this pocket within type 1 and 2 cholecystokinin receptors (CCK1R and CCK2R), we prepared a series of receptor constructs in which six distinct residues in TM2, -3, -6, and -7 were reversed. Two novel iodinated CCK1R- and CCK2R-selective 1,4-benzodiazepine antagonists, differing only in stereochemistry at C3, were used. When all six residues within CCK1R were mutated to corresponding CCK2R residues, benzodiazepine selectivity was reversed, yet peptide binding selectivity was unaffected. Detailed analysis, including observations of gain of function, demonstrated that residues 6.51, 6.52, and 7.39 were most important for binding the CCK1R-selective ligand, whereas residues 2.61 and 7.39 were most important for binding CCK2R-selective ligand, although the effect of substitution of residue 2.61 was likely indirect. Ligand-guided homology modeling was applied to wild type receptors and those reversing benzodiazepine binding selectivity. The models had high predictive power in enriching known receptor-selective ligands from related decoys, indicating a high degree of precision in pocket definition. The benzodiazepines docked in similar poses in both receptors, with C3 urea substituents pointing upward, whereas different stereochemistry at C3 directed the C5 phenyl rings and N1 methyl groups into opposite orientations. The geometry of the binding pockets and specific interactions predicted for ligand docking in these models provide a molecular framework for understanding ligand selectivity at these receptor subtypes. Furthermore, the strong predictive power of these models suggests their usefulness in the discovery of lead compounds and in drug development programs.     

Development of new potent agonists able to interact with two postulated subsites of the cholecystokinin CCK-B receptor

Since the biochemical and pharmacological profile of BC 197 and BC 264,two CCK₈-derived agonists with high specificity for CCK-Breceptors, suggests their potential interaction with two CCK-B receptorsubsites, it appeared essential to design new series of compounds that wouldbe able to discriminate between these two subsites. As CCK₄ isthe shortest fragment of CCK which interacts selectively with CCK-Breceptors, compounds derived from the C-terminal tetrapeptide domain of BC264, Boc-Trp-(NMe)Nle-Asp-Phe-NH₂, and of the cyclic compoundBC 197, were prepared. While RB 360(N-(cycloamido)--Me(R)Trp-[(2S)-2-amino-9-((cycloamido)carbonyl)nonanoyl]-Asp-Phe-NH₂), like BC 197, has a CCK-B₁ profilewith anxiogenic-like effects in the elevated plus-maze test, RB 400(HOOC-CH₂-CO-Trp-(NMe)Nle-Asp-Phe-NH₂), like BC264, seems to be a specific CCK-B₂ agonist, able to increaseattention and/or memory processes in the Y-maze test.     

Development of new potent agonists able to interact with two postulated subsites of the cholecystokinin CCK-B receptor

Summary Since the biochemical and pharmacological profile of BC 197 and BC 264, two CCK₈-derived agonists with high specificity for CCK-B receptors, suggests their potential interaction with two CCK-B receptor subsites, it appeared essential to design new series of compounds that would be able to discriminate between these two subsites. As CCK₄ is the shortest fragment of CCK which interacts selectively with CCK-B receptors, compounds derived from the C-terminal tetrapeptide domain of BC 264, Boc-Trp-(NMe)Nle-Asp-Phe-NH₂, and of the cyclic compound BC 197, were prepared. While RB 360 (N-(cycloamido)-α-Me(R)Trp-[(2S)-2-amino-9-((cycloamido)carbonyl)nonanoyl]-Asp-Phe-NH₂), like BC 197, has a CCK-B₁ profile with anxiogenic-like effects in the elevated plus-maze test, RB 400 (HOOC-CH₂-CO-Trp-(NMe)Nle-Asp-Phe-NH₂), like BC 264, seems to be a specific CCK-B₂ agonist, able to increase attention and/or memory processes in the Y-maze test.     

2-Aryl-N-acyl indole derivatives as liver X receptor (LXR) agonists

Structure-activity relationship studies on a series of Boc-indole derivatives as LXR agonists are described. Compound 1 was identified as an LXR agonist through structure-based virtual screening followed by high-throughput gene profiling. Replacement of the indan linker portion in 1 with an open-chain linker resulted in compounds with similar or improved in vitro potency and cellular functional activity. The Boc group at the N-1 position of the indole moiety can be replaced with a benzoyl group. The SAR studies led to the identification of compound 8, a potent LXRbeta agonist with an EC50 of 12 nM in the cofactor recruitment assay.     

Dopamine receptor elevation by cholecystokinin

High concentrations of cholecystokinin (CCK) in the striatum and limbic areas of the brain suggest that this peptide may influence dopaminergic transmission. Thus, the effect of CCK on dopamine D₂ receptors in the striatum and nucleus accumbens of the rat brain both in vitro and in vivo (central and peripheral administration) was studied by determining the binding of ³H-spiperone. The density (B_max) of D₂ receptors was elevated (a) by 20% in the accumbens upon in vitro co-incubation with 10⁻⁶ M CCK. (A non-significant drop of 10% occurred in the striatum); (b) by about 40% in the accumbens and 25% in the striatum after continuous intraventricular infusion of CCK for 24 hr. The increase in receptor density in the accumbens was maintained for 14 days and in both tissues was specific to CCK (neurotensin infusion did not alter ³H-spiperone binding); (c) by 20% in the accumbens and 15% in the striatum 3 hr after a single IP injection of 50 μg/kg CCK or caerulein, and maintained up to 14 days later. These results suggest that CCK elevates dopamine D₂ receptors in the accumbens and striatum and may be a physiological modulator of the dopaminergic system.     

Discovery of non-zwitterionic GABA(A) receptor full agonists and a superagonist

Numerous previous studies of GABA(A) receptor ligands have suggested that GABA(A) receptor agonists must be zwitterionic and feature an intercharge separation similar to that of GABA (approx. 4.7-6A). In this communication we demonstrate that appropriately functionalized GABA amides are partial, full, or superagonists, despite their non-zwitterionic structure.     

Endogenous unsaturated C18 N-acylethanolamines are vanilloid receptor (TRPV1) agonists

The endogenous C18 N-acylethanolamines (NAEs) N-linolenoylethanolamine (18:3 NAE), N-linoleoylethanolamine (18:2 NAE), N-oleoylethanolamine (18:1 NAE), and N-stearoylethanolamine (18:0 NAE) are structurally related to the endocannabinoid anandamide (20:4 NAE), but these lipids are poor ligands at cannabinoid CB(1) receptors. Anandamide is also an activator of the transient receptor potential (TRP) vanilloid 1 (TRPV(1)) on primary sensory neurons. Here we show that C18 NAEs are present in rat sensory ganglia and vascular tissue. With the exception of 18:3 NAE in rat sensory ganglia, the levels of C18 NAEs are equal to or substantially exceed those of anandamide. At submicromolar concentrations, 18:3 NAE, 18:2 NAE, and 18:1 NAE, but not 18:0 NAE and oleic acid, activate native rTRPV(1) on perivascular sensory nerves. 18:1 NAE does not activate these nerves in TRPV(1) gene knock-out mice. Only the unsaturated C18 NAEs elicit whole cell currents and fluorometric calcium responses in HEK293 cells expressing hTRPV(1). Molecular modeling revealed a low energy cluster of U-shaped unsaturated NAE conformers, sharing several pharmacophoric elements with capsaicin. Furthermore, one of the two major low energy conformational families of anandamide also overlaps with the cannabinoid CB(1) receptor ligand HU210, which is in line with anandamide being a dual activator of TRPV(1) and the cannabinoid CB(1) receptor. This study shows that several endogenous non-cannabinoid NAEs, many of which are more abundant than anandamide in rat tissues, activate TRPV(1) and thus may play a role as endogenous TRPV(1) modulators.     

Microscopic kinetics and energetics distinguish GABA(A) receptor agonists from antagonists

Although agonists and competitive antagonists presumably occupy overlapping binding sites on ligand-gated channels, these interactions cannot be identical because agonists cause channel opening whereas antagonists do not. One explanation is that only agonist binding performs enough work on the receptor to cause the conformational changes that lead to gating. This idea is supported by agonist binding rates at GABA(A) and nicotinic acetylcholine receptors that are slower than expected for a diffusion-limited process, suggesting that agonist binding involves an energy-requiring event. This hypothesis predicts that competitive antagonist binding should require less activation energy than agonist binding. To test this idea, we developed a novel deconvolution-based method to compare binding and unbinding kinetics of GABA(A) receptor agonists and antagonists in outside-out patches from rat hippocampal neurons. Agonist and antagonist unbinding rates were steeply correlated with affinity. Unlike the agonists, three of the four antagonists tested had binding rates that were fast, independent of affinity, and could be accounted for by diffusion- and dehydration-limited processes. In contrast, agonist binding involved additional energy-requiring steps, consistent with the idea that channel gating is initiated by agonist-triggered movements within the ligand binding site. Antagonist binding does not appear to produce such movements, and may in fact prevent them.     

4-(3-Aryloxyaryl)quinoline alcohols are liver X receptor agonists

A series of 4-(3-aryloxyaryl)quinolines with alcohol substituents on the terminal aryl ring was prepared as potential LXR agonists, in which an alcohol group replaced an amide in previously reported amide analogs. High affinity LXR ligands with excellent agonist potency and efficacy in a functional model of LXR activity were identified, demonstrating that alcohols can substitute for amides while retaining LXR activity. The most potent compound was 5b which had an IC₅₀ = 3.3 nM for LXRβ binding and EC₅₀ = 12 nM (122% efficacy relative to T0901317) in an ABCA1 mRNA induction assay in J774 mouse cells.     

The cholecystokinin receptor antagonist CR1409 increases plasma cholecystokinin in rats

This study was undertaken to determine whether plasma cholecystokinin (CCK) levels are affected by the administration of the CCK-receptor antagonist CR1409 to rats. Infusion of 0.19, 0.94 and 4.75 mg/kg.h CR1409 for 30 min each into 6 conscious rats increased (P less than 0.05) plasma CCK from 1.3 +/- 0.5 to 6.0 +/- 1.2, 5.4 +/- 1.2, and 5.4 +/- 1.0 pM, respectively. In a subsequent study infusion of stepwise increasing lower doses of 0.3, 1.5, 7.5, 37.5 and 187.5 micrograms/kg.h CR1409 for 30 min each into 6 other rats dose-dependently increased (P less than 0.05) plasma CCK from 1.4 +/- 0.3 to 3.1 +/- 0.6, 4.1 +/- 0.8, 5.4 +/- 1.0, 5.9 +/- 0.8 and 7.1 +/- 1.1 pM, while infusion of saline did not affect plasma CCK concentrations. We therefore conclude that the CCK-receptor antagonist CR1409 increases plasma CCK in the rat.