Importance of sulfation of gastrin or cholecystokinin (CCK) on affinity for gastrin and CCK receptors

We investigated the importance of sulfation of gastrin or cholecystokinin (CCK) on influencing their affinity for gastrin or CCK receptors by comparing the abilities of sulfated gastrin-17 (gastrin-17-II), desulfated gastrin-17 (gastrin-17-I), CCK-8 and desulfated CCK-8 [des(SO3)CCK-8] to interact with CCK or gastrin receptors on guinea pig pancreatic acini. For inhibiting binding of 125I-gastrin to gastrin receptors, gastrin-17-II (Kd 0.08 nM) greater than CCK-8 (Kd 0.4 nM) greater than gastrin-17-I (Kd 1.5 nM) greater than des(SO3)CCK-8 (Kd 28 nM). For inhibiting binding of 125I-Bolton Hunter-labeled CCK-8 to CCK receptors the relative potencies were: CCK-8 much greater than des(SO3)CCK-8 = gastrin-17-II greater than gastrin-17-I. Each peptide interacted with both high and low affinity CCK binding sites. The relative abilities of each peptide to interact with high affinity CCK receptors showed a close correlation with their abilities to cause half-maximal stimulation of enzyme secretion. These results demonstrate that, in contrast to older studies, sulfation of both CCK and gastrin increase their affinities for both gastrin and CCK receptors. Moreover, the gastrin receptor is relatively insensitive to the position of the sulfate moiety, whereas the CCK receptor is extremely sensitive to both the presence and exact position of the sulfate moiety.     

Fluorescence studies on the binding between 1-47 fragment of cholecystokinin receptor CCK(A)-R(1-47) and nonsulfated cholecystokinin octapeptide CCK8

The interaction between the 1-47 N-terminus fragment of the cholecystokinin receptor and the nonsulfated cholecystokinin octapeptide, CCK8, is monitored by fluorescence emission. Quenching of the fluorescence intensities is observed on binding. Dissociation constants calculated by these data are in the same submicromolar range as found for the binding of linear CCK8 analogues to B-type receptors. Although detailed structural information cannot be obtained, fluorescence emission is more sensitive than other techniques and permits fast detection of receptor-ligand interaction.     

Rat immunoreactive cholecystokinin (CCK): characterization using two chromatographic techniques

Acid and neutral extracts of rat cerebral cortex and upper small intestine were prepared and the endogenous concentrations of cholecystokinin-like immunoreactivity (CCK-LI) measured by three new CCK-specific radioimmunoassays. The characterization of the immunoreactive CCK molecular forms was undertaken using gel permeation chromatography in the presence of 6 M urea to minimise problems relating to peptide adsorption or aggregation. Reverse-phase high-performance liquid chromatography (HPLC) was also performed on the rat tissue extracts. Rat cortex contained 268 +/- 12 pmol/g CCK-LI, and over 90% resembled the sulphated CCK-8, which was preferentially extracted at neutral pH. In contrast, the rat upper small intestine (97 +/- 8 pmol/g of CCK-LI) contained less than 20% CCK-8, the majority of immunoreactive CCK being of larger molecular size and being preferentially extracted at acid pH. In the small intestine the predominant molecular form(s) was intermediate in size between CCK-33 and CCK-8. Large amounts of CCK-33 and of a molecular form larger than CCK-33 were also detected. It is concluded that post-translational cleavage of CCK differs in rat brain and gut.     

Minireview. The ascent of cholecystokinin (CCK) - from gut to brain

Cholecystokinin (CCK), a classical gastrointestinal polypeptide hormone, appears to have an equally important role as a brain neurotransmitter. CCK is widely distributed throughout both the central and peripheral nervous system. Of the known brain peptides, only CCK and VIP are predominately cerebral cortical peptides. In the pituitary, CCK is found in the posterior pituitary, while gastrin-like peptides are present in the anterior and intermediate lobes. Phylogenetically, gastrin-CCK-like peptides arose extremely early in evolution being present in the primitive nerve cells of the coelenterate, Hydra. Specific high affinity CCK-receptors have been demonstrated in rat and guinea-pig brains with highest concentrations in the cerebral cortex, caudate nucleus and olfactory bulb. Alterations in CCK binding have been reported during fasting and in genetically obese rats and mice. The low levels of CCK receptors in patients with Huntington's Chorea, the coexistance of CCK with dopamine in the same mesolimbic neurons and the rotational syndrome produced after central administration in rats suggests a potential physiological role for CCK in the regulation of extra-pyramidal function. CCK and/or gastrin have been demonstrated to have a number of effects on anterior pituitary hormones and the high concentrations in the posterior pituitary suggest a possible neuromodulatory role in the regulation of vasopressin and/or oxytocin release. CCK is a putative satiety hormone which appears to produce satiety both by peripheral and central effects. The presence of CCK in the periaqueductal gray and the fact that it produces naloxone reversible analgesia suggest a potential role for CCK in the regulation of pain perception. Central administration of CCK produces hyperglycemia which appears to be partly mediated via an adrenal mechanism. CCK also produces mild hypothermia and appears to be a central nervous system depressant. Present evidence indicating that CCK is a central neurotransmitter or neuromodulator includes its regional distribution with localization within neuronal cell bodies and axons; the demonstration that it can be synthesized in neuronal tissue; the fact that it is released by depolarizing stimuli $\text{in vitro}$; the presence of specific, high affinity receptors for CCK in the brain; and the finding that it can activate isolated neurons. The high concentrations of CCK in the cerebral cortex suggest that future studies will produce further surprises concerning the physiological role of this gall-bladder contracting hormone which came of age with the discovery of its wide distribution in the central nervous system.     

Release and endogenous actions of the gastrin/cholecystokinin (CCK) family in the chicken

The regulation of cholecystokinin (CCK) and gastrin release in the chicken and their endogenous actions are summarized. Both dietary protein and amino acids stimulated CCK releases. Among dietary fat sources, medium-chain triacylglycerol (MCT) was a potent stimulator of CCK release compared with long-chain triacylglycerol (LCT). However, it is difficult to explain that endogenous CCK released by those stimulators has an important role in the avian gastrointestinal physiology. Luminal acids may be an important regulator in pancreatic enzyme and fluid secretion. Gastrin (a regulator of luminal acid secretion) release was stimulated by food components, strongly by MCT, but not by LCT, and weakly by some amino acids, and was inhibited by luminal acids. Luminal acids controlled food passage from the crop. In conclusion, gastrointestinal physiology may be directly regulated by luminal acid rather than by the gastrin/CCK family in the chicken.     

Effects of unilateral intracerebroventricular microinjections of cholecystokinin (CCK) on circling behavior of rats

Unilateral intracerebroventricular (ICV) injections of a high dose of CCK₇ have been reported to elicit barrel rotations accompanied by contralateral postural asymmetry; there was no spontaneous locomotor activity other than barrel rolling. The aim of the present study was to investigate the effects of lower doses of CCK-peptides on circling behavior; it was reasoned that if ambulation was present following unilateral ICV administrations of lower doses of CCK, then the contralateral postural asymmetry previously reported might be expressed as contraversive circling. In the present study, spontaneous locomotor activity was observed following ICV injections of lower doses of CCK sulfated octapeptide (CCK₈), desulfated CCK octapeptide (dCCK₈) and CCK tetrapeptide (CCK₄). As postulated, contraversive circling was induced by CCK₈ (0.5–5000 ng, ICV); the two other CCK fragments, dCCK₈ and CCK₄, were inactive in this respect. In addition, the contraversive circling bias induced by CCK₈ (5.0 ng, ICV) was attenuated by co-injections of the CCK antagonist proglumide (10 and 100 ng) and by intraperitoneal injections of the dopamine (DA) antagonist haloperidol (0.05 and 0.1 mg/kg, 45 min prior to ICV CCK₈). These data suggest that the effect is mediated by CCK receptors and through a facilitatory influence on central DA function.     

Distribution and heterogeneity of immunoreactive cholecystokinin (CCK) in the mucosa of the porcine gastrointestinal tract

The concentration and molecular nature of cholecystokinin-like immunoreactivity (CCK-LI) in extracts of porcine intestinal mucosa were determined using sequence-specific radioimmunoassays. Highest CCK concentrations were measured in duodenal mucosa (258 +/- 60 pmol/g in the distal duodenum) followed by jejunal mucosa (204 +/- 36 pmol/g in the proximal jejunum) and pylorus (51 +/- 9 pmol/g). All other gastrointestinal regions proximal to the pylorus and distal to the jejunum contained less than 20 pmol/g. Pancreas contained less than 1 pmol/g. Gel chromatography in 6 M urea revealed four immunoreactive forms and this was confirmed by reverse-phase high-pressure liquid chromatography (HPLC). The predominant molecular form in acid extracts of duodenal mucosa resembled CCK-33 although high concentrations of the larger CCK form ('CCK-58') and of the form intermediate in size between CCK-33 and CCK-8 were measured. A molecular form resembling CCK-8 was the principal form in neutral extracts of the duodenum.     

Inhibition of prohormone convertase 1 (PC1) expression in cholecystokinin (CCK) expressing At-T20 cells decreased cellular content and secretion of CCK and caused a shift in molecular forms of CCK secreted

Two different RNAi methods were used to inhibit the expression of prohormone convertase 1 (PC1) in At-T20 cells. Transient transfection of double stranded RNA and stable expression of a vector expressing hairpin-loop RNA targeting PC1 reduced cholecystokinin (CCK) secretion from At-T20 cells. PC1 mRNA and protein were also decreased in the vector transfected cells. This treatment caused a shift in the forms of cholecystokinin (CCK) secreted, decreasing CCK 22 and increasing CCK 8. Stable expression of RNAi effectively decreased PC1 expression. The observed decrease in CCK seen with these RNAi treatments further supports a role for PC1 in CCK processing in these cells.     

Polymerase chain reaction-based polymorphisms in the porcine cholecystokinin (CCK) gene and assignment to chromosome 13

Polymorphisms were identified in the porcine cholecystokinin (CCK) gene by digestion of products from polymerase chain reaction (PCR) with the restriction enzyme Dpn II. Individuals from the European pig gene mapping project (PiGMaP) consortium reference families (eight full-sib families, 91 total progeny) were genotype to determine linkage relationships between the CCK gene and previously mapped loci. Linkage analysis revealed that the CCK gene is located on porcine chromosome 13.     

Conformational analysis of cholecystokinin fragments CCK4, CCK5, and CCK6 by 1H-NMR spectroscopy and fluorescence-transfer measurements

The confortmational behavior of the cholecystokinin-related fragments CCK₄, CCK₅, and CCK₆ as determined by ¹H-nmr spectroscopy in DMSO-d₆ and water and fluorescence-transfer measurements in aqueous medium are greatly dependent on the ionization states of these peptides. Under netral conditions, the backbones of CCK₅ and CCK₆ preferentially adopted folded forms with a β-turn including the four residues Gly-Trp-Met-Asp, probably stabilized by a hydrogen bond between the CO of Gly and the NH of Phe. In these structures, possible induced by an ionic interaction between the carboxylic group of Asp³² and the NH group of the N-terminal amino acid, the lateral chains of the various residues are quite distant from each other (15–16 Å). Under acidic conditions, extended structures without interactions between side chains predominate for CCK₅ and CCK₆, while for CCK₄, a conformational change drawing the Trp and Phe side chains in close proximity was shown by fluorescence. The conformations observed in aqueous medium at physiological pH are discussed in relation to the biological activity of these peptides.     

Mirror inspection varies with age and tool-using ability in tufted capuchin monkeys (Cebus apella)

We examined mirror inspection in tufted capuchin monkeys (Cebus apella). Capuchins were presented with a non-reflective surface for 30 minutes and then a mirror for 3 hours. Inspection of the non-reflective surface did not vary significantly as a function of tool-using ability, age, or sex. Mirror inspection was lowest in older animals, and was greater in animals that used tools than in animals that did not use tools. Mirror-aided self-inspection was not observed. These results indicate that mirror inspection varies with age and tool-using ability in tufted capuchin monkeys. We hypothesize that psychological capacities associated with mirror inspection correspond with those related to the use of tools, and that these capacities facilitate the emergence of self-recognition in some primate species.     

Internalization-sequestration and degradation of cholecystokinin (CCK) in tumoral rat pancreatic AR 4-2 J cells

Cholecystokinin (CCK) receptors were investigated in the tumoral acinar cell line AR 4-2 J derived from rat pancreas, after preincubation with 20 nM dexamethasone. At steady state binding at 37 degrees C (i.e., after a 5 min incubation), less than 10% of the radioactivity of [125I]BH-CCK-9 (3-(4-hydroxy-[125I]iodophenyl)propionyl (Thr34, Nle37) CCK(31-39)) could be washed away from intact cells with an ice-cold acidic medium, suggesting high and rapid internalization-sequestration of tracer. By contrast, more than 85% of the tracer dissociated rapidly after a similar acid wash from cell membranes prelabelled at steady state. In intact AR 4-2 J cells, internalization required neither energy nor the cytoskeleton framework. Tracer internalization was reversed partly but rapidly at 37 degrees C but slowly at 4 degrees C. In addition, two degradation pathways of the tracer were demonstrated, one intracellular and one extracellular. Intracellular degradation occurred at 37 degrees C but not at 20 degrees C and resulted in progressive intracellular accumulation of [125I]BH-Arg that corresponded, after 1 h at 37 degrees C, to 35% of the radioactivity specifically bound. This phenomenon was not inhibited by serine proteinase inhibitors and modestly only by monensin and chloroquine. Besides, tracer degradation at the external cell surface was still observable at 20 degrees C and yielded a peptide (probably [125I]BH-Arg-Asp-Tyr(SO3H)-Thr-Gly). This degradation pathway was partly inhibited by bacitracin and phosphoramidon while thiorphan, an inhibitor of endopeptidase EC 3.4.24.11, was without effect.     

Computational analysis of conformational behavior of cholecystokinin fragments. I-CCK4, CCK5, CCK6 and CCK7 molecules

A conformational analysis has been performed on several peptide fragments (CCK4 to CCK7) of the cholecystokinin neuromodulator. The Monte-Carlo Metropolis method was used to explore the conformational space of all these flexible units and different electric charge distributions were introduced in order to mimic pH effects. Results agree reasonably well with experimental data from NMR and fluorescence experiments. The CCK4 fragment displays a peculiar conformational behavior when compared to all other longer peptides with short range interaction between the Trp and Phe aromatic side-chains. Several H-bonded conformers including C- or beta-turns are found for CCK5 to CCK7. These findings are correlated to the central and peripheral actions of these compounds and hypotheses concerning the best possible templates for each one are discussed.     

Determination of plasma cholecystokinin (CCK) concentrations by bioassay and radioimmunoassay in man. A critical evaluation.

The present investigation was designed to perform a direct comparison of a rat pancreatic acini bioassay system and a specific CCK radioimmunoassay (antiserum G-160) for the measurement of fasting and meal-stimulated plasma CCK in the presence and absence of the CCK receptor antagonist loxiglumide. The G-160 CCK antiserum is directed against the C-terminal O-sulfated tyrosine residue of the CCK molecule which is essential for full bioactivity of CCK peptides. For plasma extraction prior to bioassay measurement, hydrophobic reverse-phase chromatography on octadecylsilane cartridges was employed and resulted in simultaneous adsorption and elution of both CCK peptides and loxiglumide with recoveries of 87.5 +/- 9% and 75.0 +/- 5.9%, respectively. In the absence of loxiglumide, fasting and meal-stimulated values for CCK-like bioactivity and CCK-immunoreactivity (IR-CCK) were nearly identical (basal values: 1-2 pmol/l; meal-stimulated plateau levels: 4-6 pmol/l). After intravenous infusion of loxiglumide (30 mg/kg/h for 10 min, 10 mg/kg/h thereafter), resulting in plasma steady state levels of 200-300 mumol/l, meal-stimulated CCK-like bioactivity was undetectable, whereas IR-CCK levels were augmented 6.5-fold. In the bioassay system, standard samples containing 50 mumol/l loxiglumide produced complete inhibition of acinar lipase release in response to 50 pmol/l synthetic CCK-8. We conclude, that postprandial circulating non-CCK-like factors do not contribute significantly to the direct receptor-mediated stimulation of exocrine pancreatic secretion. The good agreement of CCK-like bioactivity and IR-CCK levels in the absence of loxiglumide confirms the sensitive and specific recognition of bioactive CCK peptides by the G-160 antiserum and suggests that this antibody exerts binding characteristics probably similar to a pancreatic acinar receptor.     

Recombinant prohormone convertase 1 and 2 cleave purified pro cholecystokinin (CCK) and a synthetic peptide containing CCK 8 Gly Arg Arg and the carboxyl-terminal flanking peptide

Purified recombinant prohormone convertase 1 and 2 (PC1 and PC2) cleave a peptide containing cholecystokinin (CCK) 8 Gly Arg Arg and the carboxyl-terminal peptide liberating CCK 8 Gly Arg Arg. PC1 and PC2 also cleave purified pro CCK, liberating the amino terminal pro-peptide while no carboxyl-terminal cleavage was detected. Under the conditions of the in vitro cleavage assay, it appears that the carboxyl-terminal cleavage site of pro CCK is not accessible to the enzymes while this site is readily cleaved in a synthetic peptide. Additional cellular proteins that unfold the prohormone may be required to expose the carboxyl-terminal site for cleavage.     

Peptide/benzodiazepine hybrids as ligands of CCK(A) and CCK(B) receptors

The (neuro)hormones gastrin and cholecystokinin (CCK) share a common C-terminal tetrapeptide amide sequence that has been recognized as the message portion while the N-terminal extensions are responsible for the CCK(A) and CCK(B) receptor subtype selectivity and avidity. 1,4-Benzodiazepine derivatives are potent and selective antagonists of these receptors, and according to comparative molecular field analysis, the structures of these nonpeptidic compounds could well mimic the message sequence of the peptide agonists at least in terms of spatial array of the aromatic residues. Docking of a larger series of low molecular weight nonpeptide antagonists to a homology modeling derived CCK(B) receptor structure revealed a consensus binding mode that is further validated by data from site-directed mutagenesis studies of the receptors. Whether this putative binding pocket of the nonpeptide antagonists is identical to that of the message portion of the peptide agonists, or whether it is distinct and spatially separated, or overlapping, but with distinct interaction sites, is still object of debate. Using a 1,4-benzodiazepine core amino-functionalized at the C3 position, related tryptophanyl derivatives were synthesized as mimics of the tetrapeptide and subsequently extended N-terminally with gastrin and CCK address sequences. All hybrid constructs were recognized as antagonists by the CCK(A) and CCK(B) receptors, but their address portions were incapable of enhancing in significant manner selectivity and avidity. Consequently, the binding of the peptide/benzodiazepine hybrids has to be dictated mainly by the benzodiazepine moiety, which apparently prevents optimal interactions of the address peptides with extracellular receptor subdomains. These findings would strongly support the view of distinct binding sites for the message portion of the peptide agonists and the benzodiazepine-based nonpeptide antagonists.