Selective potentiating effect of RS14203 on a serotoninergic pathway in anesthetized rats

The usefulness of selective inhibitors of type 4 phosphodiesterase (PDE4) in the treatment of inflammation and pulmonary diseases is limited by their side effects: nausea and vomiting. We studied the effect of three structurally diverse PDE4 inhibitors on the vagal nerve afferent and efferent fibers in anesthetized rats. The effects of RS14203, (R)-rolipram, and CT-2450 were evaluated on the von Bezold-Jarisch reflex (vagal afferent fibers) and in a model of vagal electrical stimulation (vagal efferent fibers). All three PDE4 inhibitors were administered at 1, 10, or 100 microg/kg (iv) 15 min prior to the induction of bradycardia by an iv injection of 2-methyl-5-HT (von Bezold-Jarisch reflex) or by vagal electrical stimulation. At 100 microg/kg, RS14203 significantly potentiated the 2-methyl-5-HT response. No statistically significant effects were observed with (R)-rolipram or CT-2450 at the doses studied. RS14203, (R)-rolipram, or CT-2450 (1-100 microg/kg iv) did not affect the bradycardia induced by vagal electrical stimulation. Consequently, our results show that RS14203 selectively facilitates serotoninergic neurotransmission in vagal afferent fibers. The emetic action of RS14203 may be mediated by this mechanism.     

Effect of prolonged administration of long-acting somatostatin on caerulein, CCK-8 and GRP induced pancreatic growth in the rat.

This work investigates the effects of the long-acting somatostatin analogue, octreotide also named SMS 201-995 or Sandostatin, on pancreatic growth in function of the dose and duration of treatment. Octreotide was administered s.c. twice daily, while pancreatico-trophic peptides, caerulein and CCK-8 (1.8 nmol/kg b.wt.) or GRP (3.6 nmol/kg b.wt.) were administered s.c. three times daily. Octreotide (1,10,20 micrograms/kg b.wt.) administered for 4 days reduced pancreatic growth induced by caerulein in a dose-dependent manner. This effect, significant from 10 micrograms/kg, was more obvious with 20 micrograms/kg. At this latter dose, octreotide inhibited significantly the increase in pancreatic weight and protein, RNA, DNA and enzyme content induced by a 4- or 10-day treatment with GRP. A similar effect was observed after a 4-day treatment with CCK-8, but after a 10-day treatment only protein and enzyme contents were reduced. Octreotide by itself did not affect pancreatic size and composition after a 10-day treatment, but decreased enzyme content after a 4-day treatment. It is concluded that octreotide exerts an antitrophic effect on the rat exocrine pancreas which depends on the dose and duration of treatment and can be modulated by the trophic factor applied for a long-term.     

Comparative effect of chronic bombesin, gastrin-releasing peptide and caerulein on the rat pancreas

This study was designed to compare, on a molar basis, the effect of chronic bombesin, gastrin-releasing peptide (GRP) and caerulein on pancreatic growth in the rat. These 3 peptides were administered s.c. 3 times daily for 4 days at the following concentrations: 0.036, 0.36, 3.6 and 7.2 nmol/kg of body weight. Bombesin and GRP induced pancreatic growth in a dose-dependent manner from 3.6 nmol/kg. This growth was characterized by an increase in pancreatic weight, its protein and RNA contents but not in DNA content suggesting cellular hypertrophy. Caerulein exerted a biphasic effect on pancreatic growth, inducing cellular hypertrophy at low doses since 0.36 nmol/kg and atrophy with the highest dose (7.2 nmol/kg). Bombesin and caerulein (until 3.6 nmol/kg) increased the pancreatic content in chymotrypsin more than in amylase. The 7.2 nmol/kg caerulein treatment depressed all enzyme activities while the same dose of GRP increased pancreatic lipase content. It is concluded that (1) bombesin and GRP are equipotent trophic factors for the pancreas; (2) caerulein is the most potent factor and exerts a biphasic effect on pancreatic growth; (3) pancreatic growth and synthesis and/or secretion of enzymes are not regulated through the same mechanism.     

Inhibitory effects of beta-alanine on the vagal efferent and afferent excitatory responses of the stomach to stimulation of vagal trunk in cats.

The effects of beta-alanine on the electrically evoked vagal efferent (hexamethonium-sensitive initial excitatory response) and afferent (hexamethonium-resistant delayed excitatory response) responses of the cat stomach were studied. beta-alanine (30 to 300 micrograms/kg, i.v.) dose-dependently inhibited both the efferent and afferent response. The IC50 values of beta-alanine on the efferent and afferent response were 296 +/- 65 micrograms/kg and 128 +/- 35 microgram/kg, respectively. Maximal inhibitory effects of beta-alanine (300 micrograms/kg, i.v.) appeared about 1 hr after the injection. Glycine and taurine (100 to 10,000 micrograms/kg) did not affect these responses. Treatment with hexamethonium (10 mg/kg, i.v.) prevented the efferent response, but augmented the afferent response. The treatment with hexamethonium abolished the inhibitory effect of beta-alanine on the afferent response. Both picrotoxin (100 and 500 micrograms/kg, i.v.) and bicuculline (2000 micrograms/kg, i.v.) antagonized the inhibitory effects of beta-alanine on the vagal efferent and afferent responses of the stomach. The present experiments clearly demonstrated that beta-alanine inhibited both the vagal efferent and afferent excitatory responses of stomach to electrical stimulation of vagal trunk in cats.     

Blocking of cholecystokinin octapeptide behavioral effects by proglumide

An open field apparatus was used to assess the effect of proglumide, a selective antagonist of cholecystokinin octapeptide (CCK-8), to block the behavioral effect of CCK-8 in rats. Intracerebroventricular (ICV) injection of CCK-8 (0.5 to 2 micrograms) was effective in suppressing general exploratory activities and this effect was blocked by proglumide at doses of 2 to 5 micrograms administered ICV or 1 mg/kg administered subcutaneously. The effect of peripherally administered CCK-8 (10 micrograms/kg) was blocked by peripherally administered proglumide at a dose of 2 mg/kg but not by centrally administered proglumide at a dose of 5 micrograms/rat. The behavioral effect of CCK-8 was thus clearly blocked by proglumide.     

Effects of calcium channel antagonists on the vagally mediated cardiac chronotropic response in dogs

A brief electrical stimulation of the vagus nerve may elicit a triphasic response comprising (i) an initial prolongation of the same or the next cardiac cycle, (ii) a return of the subsequent cardiac cycle to about the level prior to vagal stimulation, and (iii) a secondary prolongation of cardiac cycle length that lasts several beats. We compared the effects of two calcium channel antagonists, verapamil and nifedipine, on this triphasic response to vagal stimulation in chloralose-anesthetized, open-chest dogs. In the absence of vagal stimulation, nifedipine (doses of 10, 40, and 50 micrograms/kg for a total dose of 100 micrograms/kg, i.v.) and verapamil (two doses of 100 micrograms/kg each, i.v.) increased the cardiac cycle length (A-A interval) by 16% (429 +/- 20 to 496 +/- 21 ms) and 29% (470 +/- 33 to 605 +/- 54 ms), respectively. Nifedipine (100 micrograms/kg total) attenuated the initial vagally mediated prolongation of the A-A interval, from 474 +/- 19 to 369 +/- 42 ms above the basal A-A interval. Following the initial prolongation of the vagal effect, other A-A intervals were not affected. In contrast, verapamil potentiated the vagally mediated initial prolongation in cardiac cycle length at the first dose administered (100 micrograms/kg) from 492 +/- 17 to 561 +/- 14 ms, but other increases in dosages had no further effect. Thus these two calcium channel antagonists have different effects on the sinoatrial chronotropic responses caused by brief vagal stimulation.     

Dose-response curves of central and peripheral airways to nicotine injections in dogs

The dose-response curves of the central and peripheral airways to intravenously injected nicotine were studied in 55 anesthetized dogs. With intact vagi, nicotine caused a dose-dependent increase in central airway resistance (Rc) similar to the increase in peripheral airway resistance (Rp) at concentrations ranging from 4 to 64 micrograms/kg. However, the responses of both Rc and Rp fell progressively when sequential doses of nicotine greater than 256 micrograms/kg were administered. With intact vagi and the administration of propranolol, there was a greater increase in Rp than in Rc at a nicotine dose of 64 micrograms/kg (P less than 0.05). With vagotomy, the responsiveness of both central and peripheral airways to nicotine decreased with doses of nicotine less than 64 micrograms/kg, but with doses of nicotine greater than 256 micrograms/kg the suppressive effect of nicotine on both Rc and Rp was less than that seen with intact vagi. Under conditions in which the vagi were cut and atropine administered, the responsiveness of nicotine was even further depressed. Combinations either of atropine and chlorpheniramine or atropine and phenoxybenzamine also completely blocked reactions to nicotine. Additionally reactions to nicotine were completely blocked by hexamethonium. These results suggest that nicotine increases both Rc and Rp mainly through a vagal reflex and stimulation of the parasympathetic ganglia.     

Modulating effect of cerulein on benzodiazepine receptors

Subcutaneous administration of caerulein (100-500 micrograms/kg) significantly reduced the development of picrotoxin (8 mg/kg) seizures in male mice. The same doses of caerulein inhibited 3H-flunitrazepam binding in in vivo experiments. Proglumide, an antagonist of cholecystokinin receptors, in low dose (5 mg/kg) potentiated the effects of caerulein (100 micrograms/kg), whereas the administration of proglumide in high dose (25 mg/kg) reduced the action of caerulein on 3H-flunitrazepam binding and picrotoxin seizures. Caerulein (5-1000 nM) decreased 3H-flunitrazepam binding in in vitro experiments only after supplementation of the binding medium with 120 mM NaCl and 5mM KCl. The results suggest the possible interaction of caerulein with chloride ionophor. It seems probable that the direct interaction of caerulein with chloride ionophor in involved in the inhibitory effect of caerulein on picrotoxin seizures and 3H-flunitrazepam binding.     

GABA(B) receptors on vagal afferent pathways: peripheral and central inhibition

To investigate GABA(B) receptors along vagal afferent pathways, we recorded from vagal afferents, medullary neurons, and vagal efferents in ferrets. Baclofen (7-14 micromol/kg i.v.) reduced gastric tension receptor and nucleus tractus solitarii neuronal responses to gastric distension but not gastroduodenal mucosal receptor responses to cholecystokinin (CCK). GABA(B) antagonists CGP-35348 or CGP-62349 reversed effects of baclofen. Vagal efferents showed excitatory and inhibitory responses to distension and CCK. Baclofen (3 nmol i.c.v. or 7-14 micromol/kg i.v.) reduced both distension response types but reduced only inhibitory responses to CCK. CGP-35348 (100 nmol i.c.v. or 100 micromol/kg i.v.) reversed baclofen's effect on distension responses, but inhibitory responses to CCK remained attenuated. They were, however, reversed by CGP-62349 (0.4 nmol i.c.v.). In conclusion, GABA(B) receptors inhibit mechanosensitivity, not chemosensitivity, of vagal afferents peripherally. Mechanosensory input to brain stem neurons is also reduced centrally by GABA(B) receptors, but excitatory chemosensory input is unaffected. Inhibitory mechano- and chemosensory inputs to brain stem neurons (via inhibitory interneurons) are both reduced, but the pathway taken by chemosensory input involves GABA(B) receptors that are insensitive to CGP-35348.     

Effect of treatment with submaximal and excessive doses of caerulein on pancreatic growth in newborn rats

Different groups of CFY female newborn rats were treated with saline, or 1 microgram/kg or 100 micrograms/kg doses of caerulein given s. c. 3 x/day. Application of 100 micrograms/kg dose of caerulein for 3 days stimulated pancreatic growth inducing pancreatic hyperplasia; both (1 and 100 micrograms/kg) doses evoked increase in trypsin/DNA ratio inducing pancreatic hypertrophy in 4-days-old rats. Using the indices as before application of 1 microgram/kg caerulein for 10 days stimulated pancreatic growth and both (1 and 100 micrograms/kg) doses elicited glandular hypertrophy in 11-days-old rats. In 24-old-rats the 1 microgram/kg doses of caerulein given for 3 days stimulated pancreatic growth and induced pancreatic hypertrophy, the 100 micrograms/kg doses of the peptide given for 3 days, however, evoked pancreatic aplasia and atrophy.     

CCK-resistance in Zucker obese versus lean rats

Obese Zucker rats are less sensitive to the satiety effect of CCK than lean litter mates. The present studies further characterised this CCK resistance. Subcutaneous injection of the CCK agonist caerulein dose-dependently decreased food intake in Zucker obese and lean rats whereas the CCK-B agonist gastrin-17 did not. Caerulein at 4 μg/kg, which resulted in CCK plasma bioactivity slightly above postprandial levels, decreased food intake in lean rats but not in obese rats. The decrease in food intake was also more marked at higher caerulein doses (20–100 μg/kg) in lean versus obese rats. In lean animals the satiety effects of the “near physiological” 4 μg/kg caerulein dose was abolished after blockade of vagal afferents with capsaicin, whereas the effects of higher caerulein doses were not. CCK-stimulated amylase secretion from pancreatic acini and binding capacity of ¹²⁵I- labelled CCK-8 were decreased in obese versus lean rats. The CCK-A antagonist loxiglumide at 20 mg/kg, a dose which abolished the action of all caerulein doses on food intake, failed to alter the food intake either in obese or in lean rats when given without an agonist. The results suggest that the satiety effects of “near physiological” doses of caerulein in lean rats are mediated by vagal afferents whereas pharmacological doses act via non-vagal mechanisms. The differences in CCK's satiety effect between lean and obese rats may be due to differences in CCK-receptor binding and action at peripheral vagal sites. However, the failure of the CCK-A antagonist to increase food intake questions whether any of the effects of exogenous CCK are of physiological relevance.     

Species differences in the behavioral effects of cerulein--an agonist of the receptors of the octapeptide cholecystokinin--in white mice and rats

It has been shown in the behavioural experiments that combined pretreatment with haloperidol (0.25 mg/kg) and caerulein (40 micrograms/kg), and to a lesser extent pretreatment with caerulein alone caused long-term reversal of amphetamine (2 mg/kg) induced hyperexcitability in rats. Administration of proglumide (50 mg/kg), an antagonist of CCK-8 receptors, did not reverse long-term antiamphetamine effect of caerulein. In mice pretreatment with caerulein (50 and 100 micrograms/kg) alone or in combination with haloperidol (0.25 mg/kg) caused hypersensitivity to the behavioural effect of amphetamine (3 mg/kg). Intraventricular (I ng), but not systemic (100-500 micrograms/kg) administration of caerulein selectively antagonized seizures in mice induced by intraventricular administration of quinolinic acid (5 micrograms) and N-methyl-D-aspartate (0.2 microgram). Pretreatment with proglumide (50 mg/kg) reversed the anticonvulsive effect of caerulein in mice. In rats, caerulein failed to affect the seizures caused by intraventricular administration of quinolinic acid. The results of the present study demonstrate the existence of obvious interspecies differences in the behavioural effects of caerulein, the agonist of CCK-8 receptors, in mice and rats.     

Effects of M1 and CCK antagonists on latency of pancreatic amylase response to intestinal stimulants

In six conscious dogs with gastric and duodenal cannulas, secretin (164 pmol. kg(-1). h(-1) iv) was given to provide a flow of pancreatic juice of approximately 1 drop/s. Amylase activity was measured in each drop before and after rapid intravenous injection of caerulein (7.4 pmol/kg) or intraduodenal injection of L-tryptophan (1 mmol), sodium oleate (3 mmol), and HCl (3 mmol). All experiments were repeated in the presence of the M1 receptor antagonist telenzepine (81 nmol. kg(-1). h(-) iv) and the cholecystokinin (CCK) receptor antagonist L-364718 (0.1 mg/kg iv). Latency of amylase response (time between injection of stimulant and sustained increase in amylase activity greater than mean + 3 SD of prestimulatory activity) to tryptophan (17 +/- 7 s; n = 6) and oleate (16 +/- 5 s) was significantly (P < 0.05) shorter than to caerulein (28 +/- 4 s) and HCl (120 +/- 47 s). Telenzepine significantly increased the latency of amylase response to tryptophan and oleate by >10-fold but not the latency to caerulein or HCl. L-364718 abolished the amylase response to all stimulants. These findings indicate that the early amylase response to intraduodenal tryptophan and oleate is mediated by a neural enteropancreatic reflex ending on M1 receptors rather than by hormone release. However, the activation of (possibly vagal) CCK receptors is essential to run the reflex. The early amylase response to intraduodenal HCl is probably mediated by the release of CCK into the blood circulation.     

Effects of synthetic ovine CRF on ACTH, cortisol and blood pressure in sheep

Intravenously administered synthetic ovine CRF at doses of 0.1, 1.0 and 10.0 micrograms/kg increased plasma ACTH and cortisol concentrations in a dose-dependent fashion in unanesthetized sheep. In two unanesthetized sheep, aortic blood pressure remained relatively unaffected after the intravenous administration of CRF at 5 and 20 micrograms/kg. These results suggest that peripherally administered ovine synthetic CRF specifically stimulates the sheep pituitary-adrenal axis. Unlike other species receiving intravenous synthetic ovine CRF, sheep did not show hypotensive effects.     

Caerulein in supramaximal doses fails to stimulate pancreatic growth, but it forces secretory granulopoiesis

To determine how low or high dose of caerulein, a cholecystokinin analogue influence pancreatic growth, doses of caerulein were selected which were submaximal (1 microgram/kg i.p.) and supramaximal (10 micrograms/kg i.p.) for enzyme protein secretion. Rats were injected every 8 h for 7 days with saline, low, or high dose of caerulein. The low dose of caerulein significantly increased pancreatic weight and content of DNA, protein, and digestive enzymes. The high dose caerulein group did not differ from control in these parameters of pancreatic growth. The number of zymogen granules was increased in both caerulein-treated groups. However, zymogen granules in the high dose group were atypical, appearing lucent or having a dense core with a lucent halo. These results indicate that caerulein has a biphasic effect on both enzyme secretion and the trophic response of acinar cells, and that the inhibitory effect of high dose of caerulein on pancreatic growth is accompanied by alterations in acinar cell morphology.     

Potency of L-364,718 as an antagonist of the behavioral effects of peripherally administered cholecystokinin

A new antagonist of the peripheral cholecystokinin receptor, L-364,718, was found to block the reductions in food intake and exploratory activity induced by intraperitoneal administration of cholecystokinin octapeptide sulfate. L-364,718 significantly reversed the cholecystokinin-induced reduction in feeding at doses of 10 micrograms/kg - 10 mg/kg i.p. L-364,718 significantly reversed the cholecystokinin-induced reduction in exploratory activity at doses of 500 ng/kg - 10 mg/kg i.p. The time course of antagonist activity of L-364,718 was immediate to 90 minutes after intraperitoneal administration. L-364,718 had no significant effect on food intake or exploratory activity when administered alone, over the dose range of 100 ng/kg-10 mg/kg i.p. This compound appears to be at least one hundred times more potent than proglumide or benzotript as an antagonist of the behavioral effects of peripherally administered cholecystokinin.     

Neuroleptic-like properties of cholecystokinin analogs: distinctive mechanisms underlying similar behavioral profiles depending on the route of administration

Rats were trained to discriminate vehicle injections from intraperitoneal injections of 3 micrograms/kg caerulein, a cholecystokinin (CCK) neuropeptide analog. The reward that reinforced correct choices was an electrical brain stimulation self-administered by bar pressing. Dose-response quantitative generalization was obtained by using 1 and 2 micrograms/kg caerulein. Qualitative generalization to the vehicle occurred after injecting 10, 20 and 200 micrograms/kg unsulfated CCK-8, 10, 20 and 200 micrograms/kg CCK-4, 5 micrograms/kg CCK-8 and 1 microgram/kg caerulein, neurotensin or bombesin and 200 micrograms/kg apomorphine or 320 micrograms/kg amphetamine. Total generalization to the caerulein cue was obtained with 20 micrograms/kg sulfated CCK-8 or gastrin 2-17, 25 micrograms/kg somatostatin, 50 micrograms/kg haloperidol and 2 mg/kg chlorpromazine. The previous 5 mg/kg injection of an antiemetic drug such as chlorhydrate of trimethobenzamide did not eliminate the discriminative properties of a subsequent injection of caerulein. Our data thus tend to show that IP injection of caerulein produces effects similar to those of IP neuroleptics.     

Effect of systemic B-type natriuretic peptide on cardiac vagal motoneuron activity

Intravenous B-type natriuretic peptide (BNP) enhances the bradycardia of reflexes from the heart, including the von Bezold-Jarisch reflex, but its site of action is unknown. The peptide is unlikely to penetrate the blood-brain barrier but could act on afferent or efferent reflex pathways. To investigate the latter, two types of experiment were performed on urethane-anesthetized (1.4 g/kg iv) rats. First, the activity was recorded extracellularly from single cardiac vagal motoneurons (CVMs) in the nucleus ambiguus. CVMs were identified by antidromic activation from the cardiac vagal branch and by their barosensitivity. Phenyl biguanide (PBG), injected via the right atrium in bolus doses of 1-5 mug to evoke the von Bezold-Jarisch reflex, caused a dose-related increase in CVM activity and bradycardia. BNP infusion (25 pmol.kg(-1).min(-1) iv) significantly enhanced both the CVM response to PBG (n = 5 rats) and the reflex bradycardia, but the log-linear relation between those two responses over a range of PBG doses was unchanged by BNP. The reflex bradycardia was not enhanced in five matched time-control rats receiving only vehicle infusions. In five other rats the cervical vagi were cut and the peripheral right vagus was stimulated supramaximally at frequencies of 1-20 Hz. The bradycardic responses to these stimuli were unchanged before, during, and after BNP infusion. We conclude that systemic BNP in a moderate dose enhances the von Bezold-Jarisch reflex activation of CVM, in parallel with the enhanced reflex bradycardia. That enhancement is due entirely to an action before the vagal efferent arm of the reflex pathway.     

Vagal modulation of intestinal afferent sensitivity to systemic LPS in the rat

The central nervous system modulates inflammation in the gastrointestinal tract via efferent vagal pathways. We hypothesized that these vagal efferents receive synaptic input from vagal afferents, representing an autonomic feedback mechanism. The consequence of this vagovagal reflex for afferent signal generation in response to LPS was examined in the present study. Different modifications of the vagal innervation or sham procedures were performed in anesthetized rats. Extracellular mesenteric afferent nerve discharge and systemic blood pressure were recorded in vivo before and after systemic administration of LPS (6 mg/kg iv). Mesenteric afferent nerve discharge increased dramatically following LPS, which was unchanged when vagal efferent traffic was eliminated by acute vagotomy. In chronically vagotomized animals, to eliminate both vagal afferent and efferent traffic, the increase in afferent firing 3.5 min after LPS was reduced to 3.2 +/- 2.5 impulses/s above baseline compared with 42.2 +/- 2.0 impulses/s in controls (P < 0.001). A similar effect was observed following perivagal capsaicin, which was used to eliminate vagal afferent traffic only. LPS also caused a transient hypotension (<10 min), a partial recovery, and then persistent hypertension that was exacerbated by all three procedures. Mechanosensitivity was increased 15 min following LPS but had recovered at 30 min in all subgroups except for the chronic vagotomy group. In conclusion, discharge in capsaicin-sensitive mesenteric vagal afferents is augmented following systemic LPS. This activity, through a vagovagal pathway, helps to attenuate the effects of septic shock. The persistent hypersensitivity to mechanical stimulation after chronic vagal denervation suggests that the vagus exerts a regulatory influence on spinal afferent sensitization following LPS.     

Intravenous versus inhaled atropine for inhibiting bronchoconstrictor responses in dogs

We studied whether the muscarinic antagonist, atropine, given intravenously or by inhalation, inhibits the bronchoconstrictor responses to inhaled acetylcholine and to acetylcholine released by electrical stimulation of the vagus nerves to the same degree. We assessed bronchoconstrictor responses in anesthetized dogs by determining the increase in total pulmonary resistance before and after increasing doses of atropine and then constructing inhibition dose-response curves. Before atropine the responses to the two stimuli were equal in magnitude. After intravenous atropine (initial dose 0.12 micrograms/kg, total dose 16 micrograms/kg) both responses were progressively inhibited to a similar degree. By contrast, after inhaled atropine (initial dose 0.02 micrograms/kg, total dose 2.4 micrograms/kg) the response to acetylcholine inhalation was inhibited to a much greater degree than the response to vagal stimulation. Thus, in studies designed to inhibit bronchoconstriction due to an inhaled muscarinic agonist to the same degree as bronchoconstriction due to a vagal reflex, atropine might better be given intravenously than by inhalation.