Structure and receptor binding of PYY analogs.

Differences in the structure of PYY and two important analogs, PYY [3-36] and [Pro34]PYY, are evaluated. Y-receptor subtype ligand binding data are used in conjunction with structural data to develop a model for receptor subtype selective agonists. For PYY it is proposed that potent binding to Y1, Y4 and Y5 receptors requires the juxtaposition of the two termini while Y2 binding only requires the C-terminal helix. Further experiments that delineate between primary and tertiary structure contributions for receptor binding and activation are required to support the hypothesis that tertiary structure is stable enough to influence the expression of PYY's bioactivity.

Acid inhibition by intestinal nutrients mediated by CCK-A receptors but not plasma CCK.

We examined the role of CCK-A receptors in acid inhibition by intestinal nutrients. Gastric acid and plasma CCK and gastrin levels were measured in rats with gastric and duodenal fistulas during intragastric 8% peptone and duodenal perfusion with saline, complete liquid diet (CLD; 20% carbohydrate, 6% fat, and 5% protein), and the individual components of CLD. Acid output was significantly inhibited (50-60%) by CLD, lipid, and dextrose. Plasma CCK was significantly increased by CLD (from 2.6 +/- 0.3 to 4.8 +/- 0.5 pM) and lipid (4.6 +/- 0.5 pM). CCK levels 50-fold higher (218 +/- 33 pM) were required to achieve similar acid inhibition by exogenous CCK-8 (10 nmol x kg(-1) x h(-1) iv). Intestinal soybean trypsin inhibitor elevated CCK (10.9 +/- 2.5 pM) without inhibiting acid secretion. The CCK-A antagonist MK-329 (1 mg/kg iv) reversed acid inhibition caused by CLD, lipid, and dextrose. Peptone-stimulated gastrin (21.7 +/- 1.9 pM) was significantly inhibited by CLD (14.5 +/- 3.6 pM), lipid (12.3 +/- 2.2 pM), and dextrose (11.9 +/- 1.5 pM). Lipid and carbohydrate inhibit acid secretion by activating CCK-A receptors but not by altering plasma CCK concentrations.

Different actions of secretin and Gly-extended secretin predict secretin receptor subtypes.

Only one secretin receptor has been cloned and its properties characterized in native and transfected cells. To test the hypothesis that stimulatory and inhibitory effects of secretin are mediated by different secretin receptor subtypes, pancreatic and gastric secretory responses to secretin and secretin-Gly were determined in rats. Pancreatic fluid secretion was increased equipotently by secretin and secretin-Gly, but secretin was markedly more potent for inhibition of basal and gastrin-induced acid secretion. In Chinese hamster ovary cells stably transfected with the rat secretin receptor, secretin and secretin-Gly equipotently displaced (125)I-labeled secretin (IC(50) values 5.3 +/- 0.5 and 6.4 +/- 0.6 nM, respectively). Secretin, but not secretin-Gly, caused release of somatostatin from rat gastric mucosal D cells. Thus the equipotent actions of secretin and secretin-Gly on pancreatic secretion appear to result from equal binding and activation of the pancreatic secretin receptor. Conversely, secretin more potently inhibited gastric acid secretion in vivo, and only secretin released somatostatin from D cells in vitro. These results support the existence of a secretin receptor subtype mediating inhibition of gastric acid secretion that is distinct from the previously characterized pancreatic secretin receptor.

Solution structure of monomeric peptide YY supports the functional significance of the PP-fold.

Peptide YY (PYY) belongs to a family of peptides including neuropeptide Y (NPY) and pancreatic peptide (PP) that regulate numerous functions through both central and peripheral receptors. The solution structure of these peptides is hypothesized to be critically important in receptor selectivity and activation, based on prior demonstration of a stable tertiary conformation of PP called the "PP-fold". Circular dichroism (CD) spectra show a pH-dependent structural transition in the pH range 3-4. Thus we describe the tertiary structure of porcine PYY in water at pH 5.5, 25 degrees C, and 150 mM NaCl, as determined from 2D (1)H NMR data recorded at 500 MHz. A constraint set consisting of 396 interproton distances from NOE data was used as input for distance geometry, simulated annealing, and restrained energy minimization calculations in X-PLOR. The RMSDs of the 20 X-PLOR-generated structures were 0.71 +/- 0.14 and 1.16 +/- 0.17 A, respectively, for backbone and heavy atom overlays of residues 1-34. The resulting structure consists of two C-terminal helical segments from residues 17 to 22 and 25 to 33 separated by a kink at residues 23, 24, and 25, a turn centered around residues 12-14, and the N-terminus folded near residues 30 and 31. The well-defined portions of the PYY structure reported here bear a marked similarity to the structure of PP. Our findings strongly support the importance of the stable folded structure of this family of peptides for binding and activation of Y receptor subtypes.

Primary structures of PYY, [Pro(34)]PYY, and PYY-(3-36) confer different conformations and receptor selectivity.

We synthesized PYY-(1-36) (nonselective between Y(1) and Y(2) receptor subtype agonists), [Pro(34)]PYY (selective for Y(1)), and PYY-(3-36) (selective for Y(2)) to determine whether solution conformation plays a role in receptor subtype selectivity. The three peptides exhibited the expected specificities in displacing labeled PYY-(1-36) from cells transfected with Y(1) receptors (dissociation constants = 0.42, 0.21, and 1,050 nM, respectively) and from cells transfected with Y(2) receptors (dissociation constants = 0.03, 710, and 0.11 nM, respectively) for PYY-(1-36), [Pro(34)]PYY, and PYY-(3-36). Sedimentation equilibrium analyses revealed that the three PYY analogs were 80-90% monomer at the concentrations used for the subsequent circular dichroism (CD) and (1)H-nuclear magnetic resonance (NMR) studies. CD analysis measured helicities for PYY-(1-36), [Pro(34)]PYY, and PYY-(3-36) of 42%, 31%, and 24%, suggesting distinct differences in secondary structure. The backbone (1)H-NMR resonances of the three peptides further substantiated marked conformational differences. These patterns support the hypothesis that Y(1) and Y(2) receptor subtype binding affinities depend on the secondary and tertiary solution state structures of PYY and its analogs.

Identical primary sequence but different conformations of the bioactive regions of canine CCK-8 and CCK-58.

The C-terminal bioactive regions of CCK-8 and CCK-58 are identical (DY*MGWMDF-NH(2), Y* denotes a sulfated tyrosine residue), but these peptides have different patterns of bioactivity. Specifically, CCK-58 binds more avidly to the CCK(A) receptor while CCK-8 is more potent for stimulation of amylase secretion from pancreatic acini. We postulate that these seemingly contradictory observations reflect a stable conformational change in CCK-58 that enhances binding, but diminishes activation of second messenger. We used CD and NMR spectra to evaluate postulated structural differences between CCK-8 and the carboxy-terminus of synthetic CCK-58. The CD spectra indicate the presence of turns in CCK-8 but a mixture of helical and random coil structures for CCK-58. Comparisons of partial NMR chemical shift assignments of CCK-58 and full assignments for CCK-8 also indicate differences in the backbone conformations for these residues. The data support the hypothesis that these peptides have different, stable, carboxy-terminal structures that may influence bioactivity.

Ethanol diet increases the sensitivity of rats to pancreatitis induced by cholecystokinin octapeptide.

BACKGROUND & AIMS: Although alcoholism is a major cause of pancreatitis, the pathogenesis of this disorder remains obscure. Failure to produce experimental alcoholic pancreatitis suggests that ethanol may only increase predisposition to pancreatitis. This study sought to develop a model of ethanol pancreatitis by determining if an ethanol diet sensitizes rats to pancreatitis caused by cholecystokinin octapeptide (CCK-8). METHODS: Rats were fed intragastrically either control or ethanol diet for 2 or 6 weeks. The animals were then infused for 6 hours with either saline or CCK-8 at a dose of 3000 pmol. kg(-1). h(-1), which by itself did not induce pancreatitis. The following parameters were measured: serum amylase and lipase levels, pancreatic weight, inflammatory infiltration, number of apoptotic acinar cells, pancreatic messenger RNA (mRNA) expression of cytokines and chemokines, and nuclear factor (NF)-kappaB activity. RESULTS: All measures of pancreatitis, as well as NF-kappaB activity and mRNA expression for tumor necrosis factor alpha, interleukin 6, monocyte chemotactic protein 1, macrophage inflammatory protein 2, and inducible nitric oxide synthase, were significantly increased only in rats treated with ethanol plus CCK-8. CONCLUSIONS: An ethanol diet sensitizes rats to pancreatitis caused by CCK-8. The combined action of ethanol and CCK-8 results in NF-kappaB activation and up-regulation of proinflammatory cytokines and chemokines in the pancreas. These mechanisms may contribute to the development of alcoholic pancreatitis.

COOH-terminally extended secretins are potent stimulants of pancreatic secretion.

Posttranslational processing of preprosecretin generates several COOH-terminally extended forms of secretin and alpha-carboxyl amidated secretin. We used synthetic canine secretin analogs with COOH-terminal -amide, -Gly, or -Gly-Lys-Arg to examine the effects of COOH-terminal extensions of secretin on bioactivity and detection in RIA. Synthetic products were purified by reverse-phase and ion-exchange HPLC and characterized by reverse-phase isocratic HPLC and amino acid, sequence, and mass spectral analyses. Secretin and secretin-Gly were noted to coelute during reverse-phase HPLC. In RIA using eight different antisera raised against amidated secretin, COOH-terminally extended secretins had little or no cross-reactivity. Bioactivity was assessed by measuring pancreatic responses in anesthetized rats. Amidated canine and porcine secretins were equipotent. Secretin-Gly and secretin-Gly-Lys-Arg had potencies of 81 +/- 9% (P > 0.05) and 176 +/- 13% (P < 0.01), respectively, compared with amidated secretin, and the response to secretin-Gly-Lys-Arg lasted significantly longer. These data demonstrate that 1) amidated secretin and secretin-Gly are not separable under some chromatographic conditions, 2) current RIA may not detect bioactive COOH-terminally extended forms of secretin in tissue extracts or blood, and 3) the secretin receptor mediating stimulation of pancreatic secretion recognizes both amidated and COOH-terminally extended secretins.

Evidence that A8947 enhances pancreas growth via a trypsin inhibitor mechanism.

A8947 is a member of the sulfonyl urea class of compounds and is the active ingredient in a commercial broad leaf herbicide. This compound has been shown to produce pancreatic hypertrophy in rats, mice, and dogs. The objectives of this study were to investigate the mechanism(s) for the A8947 induction of pancreatic acinar cell hypertrophy and proliferation and to evaluate whether these pancreatic changes are reversible. A8947 was fed to male Crl:CD BR rats for up to 28 days (0, 300, 10,000, 30,000 ppm) or 56 days (0, 30,000 ppm). Rats were terminated on Test Days 7, 14, and 28 to assess the time course and dose response for the A8947-induced pancreatic changes, while rats terminated on Test Day 56 were used to assesss the reversibility of the pancreas effects at 30,000 ppm A8947. A8947 produced significant increases in pancreatic weight and acinar cell proliferation and diffuse acinar cell hypertrophy in 7 days at 10,000 and 30,000 ppm dose levels. By Day 14, absolute pancreas weights in the 10,000 and 30,000 ppm groups were maximally increased and remained at these levels throughout the study. In contrast, acinar cell proliferation in the 30,000 ppm group was still elevated at Test Day 14, but attenuated relative to the 7-day response, and returned to control levels by Test Day 28. No effects were observed at 300 ppm after a 28-day exposure period, while complete reversibility of A8947-induced pancreatic effects was demonstrated at 30,000 ppm following a 1-month recovery period (Test Day 56). Cholecystokinin (CCK) levels were increased by A8947 and closely followed the time course for pancreatic changes. MK-329, a specific CCKA receptor antagonist, completely ablated the ability of 30,000 ppm A8947 to increase pancreas weight following 7 days of exposure. A8947 did not bind the CCKA receptor in a receptor competition assay, negating any potential agonist mechanism. A8947 did, however, inhibit trypsin in vitro, suggesting a mechanism of action similar to that of raw soy protein, in which trypsin inhibition in vivo results in increased CCK levels followed by pancreatic acinar cell hypertrophy and proliferation.

Candidate canine enterogastrones: acid inhibition before and after vagotomy.

The relative contributions of several gut-derived peptides as enterogastrones known to be released in response to a fatty meal and to inhibit acid secretion have not previously been compared directly. We determined the acid-inhibitory activities of increasing intravenous doses of several peptides before and after highly selective vagotomy (HSV) during intragastric titration of a peptone meal in dogs. Before HSV, threshold inhibitory doses of peptide YY (PYY), cholecystokinin (CCK), and secretin were 5, 7, and 10 pmol.kg-1.h-1, respectively, whereas neurotensin, glucagon-like peptide-1 (GLP-1), and oxyntomodulin failed to inhibit acid secretion at doses up to 1,000 pmol.kg-1.h-1. The calculated dose producing 50% acid inhibition (ID50) of secretin (62 pmol.kg-1.h-1) was one-half that of PYY (128 pmol.kg-1.h-1). Maximal (90%) acid inhibition was produced by 100 pmol.kg-1.h-1 secretin and 500 pmol.kg-1.h-1 PYY. The highest dose of CCK that did not cause vomiting (100 pmol.kg-1.h-1) inhibited peptone-stimulated acid output by only 60%. After HSV, 500 pmol.kg-1.h-1. PYY and 200 pmol.kg-1.h-1 CCK failed to inhibit acid output by more than 50%. Threshold doses for inhibition by PYY and CCK were 200 and 100 pmol.kg-1.h-1, respectively. Secretin remained a potent inhibitor after HSV, with an ID50 of 80 pmol.kg-1.h-1 and a threshold dose of 10 pmol.kg-1.h-1. HSV also failed to affect inhibition caused by somatostatin. This study has shown that PYY and secretin are somewhat more potent and efficacious inhibitors of acid secretion than CCK but that all three peptides are far more active than GLP-1, neurotensin, and oxyntomodulin. PYY and CCK inhibit acid secretion in large part through vagal innervation of the gastric fundus, but the inhibitory effects of secretin are independent of fundic vagal innervation.

Effect of somatostatin immunoneutralization on gastric acid and pancreatic enzyme secretion in anesthetized rats.

The involvement of somatostatin in urethane-anesthesia-evoked suppression of gastric acid secretion has been described. The present study has examined the role of endogenous somatostatin in diminished pancreatic enzyme secretion during anesthesia, while monitoring acid secretion concurrently. Rats were anesthetized with either urethane or sodium pentobarbital. An indwelling catheter was placed into the right jugular vein. The esophagus and the pylorus were ligated, and the stomach was perfused with saline. The common bile duct was ligated at the hepatic hilum, and cannulated at the duodenal end of the duct for collecting pure pancreatic juice. Purified somatostatin monoclonal antibody (CURE.S6) or control antibody (keyhole limpet hemacyanin, KLH) was injected iv in increasing doses (0.05; 0.15; 0.5; and 1.5 mg) every 30 min (n = 6). Gastric acid and pancreatic amylase secretions were measured. The effect of the antibodies on CCK-8-stimulated (0.25-2.50 nmol/kg/h) pancreatic amylase secretion was also tested. During urethane anesthesia somatostatin antibody induced a dose-dependent increase in acid output, while control antibody did not change it. Basal pancreatic amylase secretion was not affected by either somatostatin or by control antibody. Pancreatic secretory responses to high but not to low doses CCK-8 were found to be significantly increased following immunoneutralization of somatostatin. In sodium pentobarbital-anesthetized rats somatostatin antibody stimulated basal acid secretion but did not affect basal pancreatic amylase secretion. Our data indicate that in anesthetized rats endogenous somatostatin mediates suppression of basal gastric acid secretion but not that of basal pancreatic amylase secretion, and this action does not depend on the type of anesthesia. Furthermore, endogenous somatostatin may play a physiological role in modulating stimulated pancreatic enzyme secretion in this species.

Bile and pancreatic juice replacement ameliorates early ligation-induced acute pancreatitis in rats.

BACKGROUND: In healthy rats, combined bile and pancreatic juice diversion from gut has a synergistic rather than additive effect on stimulation of exocrine pancreatic protein secretion. We hypothesized that exclusion of combined bile and pancreatic juice from gut exacerbates bile and pancreatic-duct ligation-induced acute pancreatitis in rats to a greater extent than exclusion of either bile or pancreatic juice alone. METHODS: Bile and pancreatic juice (obtained fresh from donor rats) were replaced, separately or together, via a duodenal fistula beginning immediately before 6 hours of duct ligation. Pancreatic morphologic changes were evaluated with an acute pancreatitis histology score and morphometric quantitation of acinar-cell necrosis. Plasma amylase and cholecystokinin concentrations and pancreatic subcellular distribution of cathepsin B activity were determined. Characteristics of bile and pancreatic juice obtained from donor rats were also studied. RESULTS: Combined bile and pancreatic juice replacement limited the increase in acute pancreatitis histology score by 77%, acinar cell necrosis by 95%, hyperamylasemia by 77%, and hypercholecystokininemia by 99%, while preventing subcellular redistribution of cathepsin B. Amelioration of pancreatic morphologic changes was significantly greater with combined bile and pancreatic juice replacement than with replacement of either bile or pancreatic juice alone. CONCLUSION: In this experimental corollary of early gallstone-induced acute pancreatitis, combined bile and pancreatic juice exclusion from gut contributes to disease pathogenesis to a greater extent than exclusion of either bile or pancreatic juice alone.

Intestinal lipid inhibits gastric emptying via CCK and a vagal capsaicin-sensitive afferent pathway in rats.

The mechanism by which lipid in the duodenum inhibits gastric emptying was investigated in awake rats fitted with chronic gastric and duodenal cannulas. Perfusion of the duodenum with lipid (Intralipid, 5 and 10%; total amount 50 and 100 mg) caused a significant inhibition (26 and 78%, respectively) of gastric emptying of a nonnutrient liquid (0.9% saline). Functional ablation of the capsaicin-sensitive vagal, but not the spinal, sensory innervation to the upper gastrointestinal tract significantly attenuated by 57% lipid-induced inhibition of gastric emptying. In intact rats, administration of a specific cholecystokinin (CCK)-A receptor antagonist, devazepide, significantly attenuated by 66% the response to lipid. Administration of devazepide in perivagal capsaicin-treated rats did not further reduce the response to lipid. These results suggest that lipid in the duodenum inhibits gastric emptying via a mechanism involving an action of CCK at type A receptors and capsaicin-sensitive vagal afferents.

Role of gastrin and cholecystokinin receptors in regulation of peptone-stimulated gastric acid secretion in conscious rats.

With the availability of selective gastrin/CCKB (L365,260) and CCKA (L364,718) receptor antagonists the present study was designed to investigate the role of gastrin and cholecystokinin (CCK) receptors in meal-stimulated gastric acid secretion. Gastric acid output was measured by continuous intragastric titration in conscious rats. Vehicle (dimethylsulfoxide/saline, 3:1), L365,260 (3 or 9 mg/kg), or L364,718 (1 mg/kg) was given by i.v. bolus injection. Basal acid output was strongly inhibited by both doses of L365,260 while L364,718 had no effect. Intragastric peptone (4%, w/v) increased acid secretion 40-65% of the response to a maximal dose (2.5 nmol/kg per h) of gastrin-17. L365,260 completely abolished gastrin-17 stimulated acid secretion and partially inhibited peptone-induced acid secretion. Blockade of CCKA receptors by L364,718 did not affect peptone-stimulated acid output. This study demonstrates that gastrin/CCKB receptors are important in regulating basal acid secretion in the conscious rat while CCKA receptors do not appear to influence basal or peptone-stimulated gastric acid secretion. Blockade of gastrin/CCKB receptors partially inhibits intragastric meal-stimulated acid secretion indicating that the gastrin/CCKB receptor has a physiological role as mediator of food-stimulated acid secretory response in conscious rats.

Octreotide and cholecystokinin antagonist reduce edema in obstruction-induced acute pancreatitis.

Obstruction-induced acute pancreatitis in rats is associated with increased plasma cholecystokinin (CCK) levels. Duodenal replacement of bile reduces severity of pancreatitis and limits CCK increase. We investigated the role of CCK in the pathogenesis of obstruction-induced acute pancreatitis by pretreating rats with the somatostatin analog octreotide and the CCK antagonist L-364,718. Octreotide inhibits duodenal CCK release, and L-364,718 competitively blocks CCK receptors. We studied 31 rats after (1) sham operation (n = 7), (2) bile and pancreatic duct obstruction (BPDO) (n = 12), (3) BPDO plus octreotide (20 micrograms/kg IP and then 5 micrograms/kg/hr IV) (n = 6), and (4) BPDO plus L-364,718 (1 mg/kg IP and then 0.25 mg/kg/hr IV) (n = 6). Rats were killed after 18 hours. Pancreas weight, acute pancreatitis histology score, and plasma amylase and CCK levels were determined. Octreotide and L-364,718 limited the increase in pancreas weight. Octreotide also limited the rise in plasma CCK levels. These findings suggest that CCK may play a role in the pathogenesis of obstruction-induced acute pancreatitis.

TGF-alpha is a potent mitogen for primary cultures of guinea pig gastric mucous epithelial cells.

Transforming growth factor-alpha (TGF-alpha) and epidermal growth factor (EGF) are thought to be important in gastric epithelial proliferation and repair. It was therefore of interest to determine if TGF-alpha and EGF promoted the growth of an in vitro primary culture system of guinea pig gastric mucous epithelial cells (MEC). MEC were isolated from guinea pig stomachs and cultured in 24-well Primaria plates with DMEM with or without 10% fetal calf serum (FCS). Growth of MEC was determined by changes in [3H]thymidine uptake, cell counts, protein, and DNA. The sources of peptides were human recombinant TGF-alpha (recTGF-alpha) and human recombinant EGF (recEGF). Both recTGF-alpha and recEGF were used at equipotent doses as determined by competing activity in a 125I-labeled TGF-alpha radioreceptor binding assay using A-431 cells. Basal growth (no peptides) of MEC in 10% FCS was dependent on the initial plating density. Under serum-free conditions, [3H]thymidine uptake increased up to 17-fold at 24 h with recTGF-alpha (0.1-10.0 nM) compared with only a 4-fold increase using rec-EGF (0.1-10.0 nM) at this same time period. Under serum-free conditions, recTGF-alpha (0.01-10.0 nM) increased cell counts up to 4.9-fold over control cultures, whereas similar does of recEGF produced a 2.5-fold increase in cell counts. Administration of recEGF 1 ng/ml) resulted in a 1.9-fold increase in the 4.8-kb TGF-alpha mRNA transcript, and TGF-alpha protein immunoreactivity was found in both 24-h conditioned media and cell lysates.(ABSTRACT TRUNCATED AT 250 WORDS)

Mechanism of bombesin-induced pancreatic secretion in unanesthetized rats.

It is unclear whether stimulation of pancreatic enzyme secretion by intravenously administered bombesin is a direct effect on acinar cells or is mediated by release of CCK; this distinction is important for defining the potential role of bombesin-like peptides as regulators of pancreatic secretion. The role of CCK in bombesin-induced pancreatic secretion was examined in rats using CCK radioimmunoassay and the CCK receptor antagonist L-364,718. A biphasic pancreatic response occurred to sequential doubling doses of bombesin (31 to 2000 pmol/kg/h, each for 30 min; n = 9 rats); amylase secretion increased to peak at 250 pmol/kg/h (11.5 +/- 1.7 kU/30 min; 4.2 +/- 0.6 kU/30 min, basal) and then declined to basal levels at 2000 pmol/kg/h. The ED50 dose of bombesin for stimulation was 31 pmol/kg/h, and the maximal response did not differ significantly from that to exogenous CCK-8 (10.6 +/- 1.5 kU/30 min) in the same rats. When single doses of bombesin were infused for 2 h (31, 62, 125, 250 pmol/kg/h; one dose per day; order randomized; n = 8), a similar dose-response relationship was seen, both for peak amylase response and cumulative output over basal. L-364,718 (0.5 mg/kg IV) had no effect on the pancreatic response to ED50 or maximal doses of bombesin. Neither dose of bombesin altered plasma CCK levels. In contrast, other stimulants of pancreatic secretion (food ingestion, soybean trypsin inhibitor) caused marked elevations in plasma CCK levels. These results indicate that the potent stimulation of pancreatic secretion by exogenous bombesin in rats is not mediated by CCK, similar to findings in humans.