Both afferent and efferent nerves are implicated in cholecytokinin motor actions in the small intestine of the rat.

Cholecystokinin (CCK) regulates intestinal motility after being released by several luminal nutrients. However the mechanism of action of CCK is still not well known. The aim of our study was to establish the mechanism of action of CCK in the rat intestine using an in vivo model and focusing on the nervous pathways involved in the response as well as type of receptors. Anesthetized rats were prepared with two strain-gauges, in duodenum and jejunum, to record circular muscle motor activity. A group of animals was also prepared with a catheter to infuse capsaicin inside the duodenum. Responses to CCK-octapeptide (CCK-8) as well as to CCK agonists were studied. CCK-8 was also infused after CCK antagonists, atropine, hexamethonium or L-nitroarginine. Results show that duodenal response to CCK-8 is excitatory although inhibitory responses can be induced by gastrin. In the jejunum, CCK-8 induces an inhibitory response that is mediated by both CCK-A and -B receptors. Excitatory responses to CCK-8 are due to stimulation of preganglionic receptors while inhibitory responses are NO mediated through stimulation of postganglionic CCK-B receptors. Capsaicin locally applied in duodenal mucosa significantly decreased CCK-8 response, whereas mucosal exposure to lidocaine completely blocked CCK-8 response. In conclusion our results show that CCK response varies along the intestine according to the predominance of excitatory or inhibitory efferent innervation. Moreover, CCK-8 actions are mediated through both extrinsic and intrinsic afferent fibres.     

Cholecystokinin tetrapeptide,proglumide and open-field behavior in rats

The effect of cholecystokinin tetrapeptide (CCK-4) was studied in an open field situation. CCK-4 increased locomotion and rearing and the effect was enhanced by proglumide, a selective antagonist of CCK-8. This is in sharp contrast to our earlier findings that CCK-8 decreased the open-field behavior and that proglumide completely blocked the effect. Thus, the effects of CCK-4 and CCK-8 appear to be opposite to each other in that one is excitatory and the other inhibitory to open-field responses.     

Fronto-cortical regulation of beta-endorphin actions in the rat

Ablation of the frontal neocortex markedly enhanced the antinociceptive and cataleptic actions of beta-endorphin injected into the lateral ventricle of rat brain. This enhanced response was not affected by simultaneous administration of cholecystokinin octapeptide (CCK-8). In sham-operated rats, however, CCK-8 suppressed the effects of beta-endorphin in a dose-related manner. Moreover, ablation of a similar amount of occipital neocortex did neither affect beta-endorphin actions nor the interactions of CCK-8.     

Behavioral effect of cholecystokinin octapeptide in vagotomized rats

Cholecystokinin octapeptide (CCK-8) was administered intracerebroventricularly (icv) or subcutaneously (sc) into subdiaphragmatically vagotomized and sham-operated rats, and the behavioral effects were quantified by an open-field test. Intracerebroventricularly injection of CCK-8 decreased locomotion and rearing to the same extent in both vagotomized and sham-operated rats, while sc injection produced behavioral changes only in sham-operated rats but not in vagotomized ones. The results indicate that CCK-8 affects both central and peripheral receptors, and the vagal nerve may be the major pathway causing behavioral effects from the visceral organs to the brain.     

Opposite effects of cholecystokinin octapeptide (CCK-8) and tetrapeptide (CCK-4) after injection into the caudal part of the nucleus accumbens or into its rostral part and the cerebral ventricles

Neurons with colocalized cholecystokinin and dopamine are present predominantly in the ventral tegmental area and project mainly to the caudal part of the medial nucleus accumbens. The activity of this dopamine system can be evaluated by means of the intracranial self-stimulation behavior on male Wistar rats having chronic electrodes implanted into the medial forebrain bundle in the postero-lateral area of the hypothalamus. The direct injection of 150 pmol CCK-8 into the medio-caudal accumbens induced an increase of intracranial self stimulation while a similar administration into its rostral portion produced a slight decrease of intracranial self-stimulation. The administration of 300 pmol CCK-4 into the same medio-caudal part of the accumbens produced an inhibitory action on intracranial self stimulation lasting for 25 min. The injection of 70 to 1300 pmol CCK-4 into the cerebral ventricles produced no change on intracranial self-stimulation. The intracerebroventricular injection of 70 pmol CCK-8 induced a large decrease of intracranial self-stimulation lasting for 20 min. Sodium chloride 0.15 M or unsulphated CCK-8 injection were without effect in either case. These results support the ideas that intracerebroventricular CCK-8 injection inhibits accumbens dopaminergic activity but that CCK-8 injection into the medio-caudal part of the accumbens, where nerve terminals with colocalized CCK and DA are present, facilitates this dopaminergic activity. In addition at the level of medio-caudal accumbens, CCK-8 and CCK-4 have opposite effects.     

Cholecystokinin Stimulates Dopamine Synthesis in Synaptosomes by a Cyclic AMP-Dependent Mechanism

The effects of different fragments of cholecystokinin (CCK) on dopamine synthesis were studied in synaptosomal preparations from the striatum, substantia nigra, and frontal cortex. In striatal synaptosomes, dopamine synthesis rate measured by dopamine accumulation was 12.5% lower than that measured by 3,4-dihydroxyphenylalanine (DOPA) accumulation; however, K+-accelerated synthesis was the same for both methods. Synthesis rate was independent of exogenous tyrosine levels. In the three regions studied, the combined stimulatory effects of 8-Br-cyclic AMP and high K+ were additive. CCK-5, CCK-3, CCK-27-33, and CCK-8 (sulphated) enhanced synthesis, CCK-5 being the most potent fragment. The nonsulphated octapeptide had no effect. In all three regions, CCK-5 and high K+ had an additive effect on dopamine synthesis; CCK-5 and 8-Br-cyclic AMP together produced the same enhancement of synthesis as CCK-5 alone. CCK-5 produced similar dose-dependent increases in dopamine synthesis and cyclic AMP accumulation in striatal synaptosomes, and both effects were blocked by the CCK antagonist proglumide.     

Effects of cholecystokinin-8s in the nucleus tractus solitarius of vagally deafferented rats

We have shown recently that cholecystokinin octapeptide (CCK-8s) increases glutamate release from nerve terminals onto neurons of the nucleus tractus solitarius pars centralis (cNTS). The effects of CCK on gastrointestinal-related functions have, however, been attributed almost exclusively to its paracrine action on vagal afferent fibers. Because it has been reported that systemic or perivagal capsaicin pretreatment abolishes the effects of CCK, the aim of the present work was to investigate the response of cNTS neurons to CCK-8s in vagally deafferented rats. In surgically deafferented rats, intraperitoneal administration of 1 or 3 mug/kg CCK-8s increased c-Fos expression in cNTS neurons (139 and 251% of control, respectively), suggesting that CCK-8s' effects are partially independent of vagal afferent fibers. Using whole cell patch-clamp techniques in thin brain stem slices, we observed that CCK-8s increased the frequency of spontaneous and miniature excitatory postsynaptic currents in 43% of the cNTS neurons via a presynaptic mechanism. In slices from deafferented rats, the percentage of cNTS neurons receiving glutamatergic inputs responding to CCK-8s decreased by approximately 50%, further suggesting that central terminals of vagal afferent fibers are not the sole site for the action of CCK-8s in the brain stem. Taken together, our data suggest that the sites of action of CCK-8s include the brain stem, and in cNTS, the actions of CCK-8s are not restricted to vagal central terminals but that nonvagal synapses are also involved.     

Effects of CCK on gastrointestinal function in lean and obese Zucker rats

Cholecystokinin (CCK), a hormone affecting several gastrointestinal functions, has also been shown to elicit satiety and affect daily meal patterns. Since Zucker obese rats are less sensitive to the satiety effects of CCK, two experiments were designed to determine if they are also less sensitive to the gastric emptying and intestinal transit rate effects of CCK. In the first experiment phenol red was administered to 5.5 hr fasted rats 15 minutes after intraperitoneal injection of CCK-8 or saline. Rats were sacrificed after 30 minutes, the stomach and small intestine were removed, and phenol red content was measured. More phenol red was in the stomach of obese but not lean rats treated with CCK-8. The rate of transit of the contents of the small intestine was increased by CCK-8 and the percent of phenol red in the fourth quarter of the small intestine was greater in obese than lean rats (91 vs 37%, p<0.05). In the second experiment gastrointestinal transit of ferric oxide was measured during the light and dark phases of the diurnal cycle, and when obese rats were ad lib or yoke-fed to lean pair-mates. Total gastrointestinal transit time of the ferric oxide was decreased 15% when CCK-8 was administered to yoke-fed obese rats in either the light or dark portions of the diurnal cycle but was not affected in ad lib-fed obese rats or lean rats. Thus, while Zucker obese rats are less sensitive to satiety effects of CCK, they appear to be more sensitive to the gastrointestinal effects of CCK, and therefore it is not clear what role these gastrointestinal responses have on the feeding behavior responses.     

Memory effect of caerulein and its analogs in active and passive avoidance responses in the rat

The memory effects of caerulein (CER) and its analogs ([des-Gln2]-CER and [Leu5,Nle8]-CER) were compared with that of cholecystokinin octapeptide (CCK-8) using active and passive avoidance responses in rats. In the active avoidance test, single subcutaneous (SC) injection of CER and its analogs immediately after the learning trials at doses of 10 and 100 ng/kg prevented extinction of learned task for 10 days, and at a dose of 1000 ng/kg for at least 15 days, but the effect of CCK-8 was somewhat weaker. In the saline control group, the number of responses decreased after 5 days. In the passive avoidance response, electroconvulsive shock (ECS)-induced amnesia was partially prevented by CCK-8 at doses of 100 and 1000 ng/kg SC, while CER and its analogs at doses of more than 100 ng/kg totally prevented the ECS-induced amnesia. Intraperitoneal administration of scopolamine caused complete amnesia which was also partially prevented by CCK-8, while CER could totally prevent the amnesia following SC injection of 2 micrograms/kg. These results indicate that CER and its analogs are more effective than CCK-8 for preventing experimental amnesia.     

Systemic and intra-dorsal periaqueductal gray injections of cholecystokinin sulfated octapeptide (CCK-8s) induce a panic-like response in rats submitted to the elevated T-maze

The neuropeptide cholecystokinin (CCK) has been implicated in fear and anxiety. CCK is found in the CNS in several molecular forms such as the tetrapeptide (CCK-4) and, mainly, the sulfated octapeptide (CCK-8s) fragments. Administration of CCK-4 induces panic attacks in humans and increases the expression of different anxiety-related behaviors in laboratory animals. The effects of CCK-8s on fear and anxiety are less straightforward and seem to be influenced, among other factors, by the route of the peptide administration and the animal model employed. In other to further investigate the role of CCK-8s in fear and anxiety, in the present study we analyzed the effect of CCK-8s in male Wistar rats submitted to the elevated T-maze. This animal model of anxiety was developed in order to separate generalized anxiety (inhibitory avoidance) and panic-like (escape) responses in the same rat. The effect of CCK-8s in this test was also investigated after injection of the peptide into the dorsal periaqueductal gray (DPAG). This brainstem area is rich in CCK receptors and has consistently been implicated in the mediation of fear and anxiety responses. The results showed that both the intraperitoneal and intra-DPAG injections of CCK-8s potentiated one-way escape behavior, suggesting a panicogenic action. In contrast, the injection of the CCK2 receptor antagonist CR2945 inhibited the expression of this behavior, a panicolytic-like effect. Therefore, the elevated T-maze, in contrast to other animal models of anxiety, can detect the anxiety-eliciting effects of CCK-8s both after its systemic and central administration. Also, the results provide further evidence about the involvement of a CCK-mediated mechanism within the DPAG in the regulation of panic-related defensive behaviors.     

Intracerebroventricular injections of cholecystokinin octapeptide suppress feeding in rats--pharmacological characterization of this action

Cholecystokinin octapeptide (CCK-8), administered intracerebroventricularly (i.c.v.), will suppress feeding. The aim of the present study was to determine the pharmacological characteristics of this satiety inducing effect in rats. For this purpose, we employed a feeding bioassay model in 24 h fasted rats and examined the effects of CCK-8 and a variety of structurally related analogs on latency to feed after i.c.v. injection and on the amount of food and water consumed as measured after the initiation of feeding in sequential 20-min epochs for 1 h. CCK-8, given in doses of 0.1, 1 and 10 nmol, produced a dose-dependent increase in feeding latency and a reduction of food intake during the first 20 min after initiation of feeding. Food intake during the next 40 min and water consumption were not altered. Plasma levels of CCK-like immunoreactivity after an i.c.v. injection of a dose of CCK-8 which blocked feeding (10 nmol) rose insignificantly from 117 to 125 pg/ml. In contrast, at the minimally effective dose of CCK-8 after i.v. administration (10 nmol), which also produced an inhibition of feeding, the plasma level was 1430 pg/ml. This difference indicates that plasma levels of CCK after i.c.v. CCK-8 are not adequate to produce the observed feeding suppression and suggests that the effects of i.c.v. CCK-8 are not mediated by a peripheral redistribution. Systematic dose response studies revealed the following rank order of potencies: CCK-8 greater than or equal to G-17 II much greater than CCK-8 NS = G-17 I greater than or equal to CCK-4 = CCK 26-29 = 0. Only gastrin-17 II (sulfated) produced an effect comparably significant to CCK-8. I.c.v. proglumide at 2500 nmol failed to modify the effects of CCK-8 at 10 nmol after i.c.v. injection. These data demonstrate that the structural requirements for feeding suppressive activity in rat brain are the carboxyterminus with a sulfated tyrosine residue, located 6 to 7 residues from the carboxyterminus, as present in CCK-8 and gastrin-17 II.     

Effects of forebrain microinjection of cholecystokinin on dopamine cell firing rate.

In anesthetized rats, midbrain dopamine (DA) neuronal firing rate was differentially sensitive to focal brain microinjection of cholecystokinin peptides (CCK-4 and CCK-8) and N-methyl-D-aspartate (NMDA) into nucleus accumbens, amygdala and prefrontal cortex. Whereas changes in DA neuronal firing rate were frequently observed in response to intra-amygdalar microinjection of CCK peptides, NMDA was most effective in eliciting changes in DA neuronal activity following intra-accumbal microinjection. Thus, stimulation of amygdalar CCK receptors and accumbal excitatory amino acid receptors may participate in the afferent regulation of midbrain DA neuronal function.     

八肽胆囊收缩素对大鼠心功能的影响及受体机制

为探讨八肽胆囊收缩素 (CCK 8)对麻醉大鼠心功能的影响及受体机制 ,实验监测了左心室收缩压(LVP)、左心室收缩与舒张期内压变化的最大速率 (±LVdp/dtmax)、心率 (HR)和平均动脉压 (MAP)。结果如下 :小剂量CCK 8(0 4 μg/kg)可引起心动过速 ,MAP、LVP和±LVdp/dtmax轻度上升 ;中剂量CCK 8(4 μg/kg)和大剂量CCK 8(4 0 μg/kg)可引起心动过缓 ,MAP、LVP和±LVdp/dtmax显著增加 ;应用CCK 受体 (CCK R)拮抗剂丙谷胺 (1 0mg/kg)抑制以上变化 ;由逆转录 聚合酶链反应 (RT PCR)检测到心肌组织有CCK A受体 (CCK AR)和CCK B受体 (CCK BR)mRNA表达。以上结果提示 :CCK 8可激活心肌组织的CCK R ,引起剂量依赖性的心功能增加和心率改变。     

Vanilloid, purinergic, and CCK receptors activate glutamate release on single neurons of the nucleus tractus solitarius centralis

Baroreceptor inputs to nucleus of the tractus solitarius medialis (mNTS) neurons can be differentiated, among other features, by their response to vanilloid or purinergic agonists, active only on C- or A-fibers, respectively. A major aim of this study was to examine whether neurons of NTS centralis (cNTS), a subnucleus dominated by esophageal inputs, exhibit a similar dichotomy. Since it has been suggested that cholecystokinin (CCK), exerts its gastrointestinal (GI)-related effects via paracrine activation of vagal afferent C-fibers, we tested whether CCK-sensitive fibers impinging upon cNTS neurons are responsive to vanilloid but not purinergic agonists. Using whole cell patch-clamp recordings from cNTS, we recorded miniature excitatory postsynaptic currents (mEPSCs) to test the effects of the vanilloid agonist capsaicin, the purinergic agonist α,β-methylene-ATP (α,β-Met-ATP), and/or CCK-octapeptide (CCK-8s). α,β-Met-ATP, capsaicin; and CCK-8s increased EPSC frequency in 37, 71, and 46% of cNTS neurons, respectively. Approximately 30% of cNTS neurons were responsive to both CCK-8s and α,β-Met-ATP, to CCK-8s and capsaicin, or to α,β-Met-ATP and capsaicin, while 32% of neurons were responsive to all three agonists. All neurons responding to either α,β-Met-ATP or CCK-8s were also responsive to capsaicin. Perivagal capsaicin, which is supposed to induce a selective degeneration of C-fibers, decreased the number of cNTS neurons responding to capsaicin or CCK-8s but not those responding to α,β-Met-ATP. In summary, GI inputs to cNTS neurons cannot be distinguished on the basis of their selective responses to α,β-Met-ATP or capsaicin. Our data also indicate that CCK-8s increases glutamate release from purinergic and vanilloid responsive fibers impinging on cNTS neurons.     

Specificity of nucleus accumbens to activities related to cholecystokinins in rats

Cholecystokinin octapeptide (CCK-8) or cholecystokinin tetrapeptide (CCK-4) were bilaterally injected into the areas where dopamine (DA) terminals and receptors have been detected; nucleus accumbens (NA), nucleus caudatus (NC), medial profrontal cortex (MPC), or prefrontal cortex (PC). The amount injected to each animal varied from 0 (control), 1 to 500 ng of CCK-8 and 0 (saline control), 0.5 to 2.5 micrograms of CCK-4 in NA in a volume of 1 microliter. The other areas received 500 ng CCK-8, 2.5 micrograms CCK-4 and proper control injections. The effects were observed in an open-field apparatus by measuring locomotor and rearing responses, the latency to move out of a specified area where the animal was first placed, and the amount of excretory bolus during a 5 min period following injections. When injected into NA, CCK-8 decreased locomotion and rearing at doses of 2.5 ng or more in a dose-related manner whereas CCK-4 increased locomotion and rearing at 1 microgram or more. The effects on latency and defecation were not detected. When the peptides were injected into NC, MPC or PC no effects were detectable. It appears that the effects of CCK-8 and CCK-4 on the exploratory responses are site-specific at NA where CCK-8 and DA are found to coexist in same neurons. CCK-4, a metabolite of CCK-8, could exert a negative feedback to moderate the effect of CCK-8.     

Preventive effect of cholecystokinin octapeptide on experimental amnesia in rats

The effect of intracerebroventricular (ICV) administration of cholecystokinin octapeptide (CCK-8) on electroconvulsive shock (ECS)-induced amnesia in passive avoidance response was studied in rats. In normal rats, CCK-8 in doses from 1 ng to 1 microgram had no effect on the response when injected before the training trials, immediately after foot shock or before the first retention test. However, proglumide, a CCK-8 receptor blocker, induced marked amnesia when injected in doses from 0.1 to 10 micrograms before the training trials and in doses of 1 and 10 micrograms before the first retention test, though not subsequent to foot shock. ECS given immediately after the foot shock caused amnesia in the 24 hr and 48 hr retention tests, which could have been prevented by CCK-8 injected in doses of 10 ng to 1 microgram prior to the training trials, of 10 ng to 1 microgram following ECS and of 0.1 and 1 microgram before the first retention test. In addition, the effects of CCK-8 and proglumide became pronounced following chronic ICV infusion, using an osmotic minipump, for 7 days at a dose of 1 ng/day and 10 ng/day, respectively. The amnesia induced by proglumide was not affected by arginine vasopressin (AVP), while AVP in doses of 10 ng and 100 ng given 30 min before the training trials prevented ECS-induced amnesia. The antiamnesic effect of AVP was abolished by simultaneous administration of proglumide. On the other hand, AVP-antiserum produced marked amnesia which could be antagonized by CCK-8. However, the antiamnesic effect of CCK-8 was not suppressed by AVP-antiserum.(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of cholecystokinin-A and cholecystokinin-B receptors in anxiety

Evidence from several laboratories indicates that the anxiogenic effects of cholecystokinin (CCK) are mediated by CCKB receptors. However, it has been reported that CCKA receptors have been found in brain and CCKA antagonists have anxiolytic properties. The aim of this work was to study whether CCKA receptors are also involved in the modulation of anxiety. Anxiogenic effects were observed in the elevated plus maze in rats when pure CCKB receptor agonists (CCK-4 and CCK-8 non-sulfated) or CCK-8S, a CCKB/CCKA agonist, were injected into the lateral ventricle. In contrast, CCK-33, a CCKA agonist or CCK-(1-21) and CCK-(26-29) were ineffective. Furthermore, the anxiogenic effects of CCK-8S were prevented by blocking CCKB but not CCKA receptors. Finally, CCK-33 injected into the postero-medial nucleus accumbens failed to affect the anxiety level of the rats. These results indicate that CCKA receptors are not involved in anxiety, as measured by the paradigms used in this work.     

Neuropeptides modulate rat chorda tympani responses

The neuropeptide leptin has been shown to selectively modulate rat chorda tympani (CT) responses to sweet tastants. To explore whether other neuropeptides can modulate such responses, rat whole nerve CT responses to NaCl, HCl, quinine HCl, and sucrose were measured while administering cholecystokinin-8 (CCK-8), substance P(4-11) (SP(4-11)), or calcitonin gene-related peptide (CGRP). To avoid possible confounding effects on CT responses that take long times to develop, such as those that arise from intraperitoneal injections, we investigated the effects of the above peptides injected into the ipsilateral lingual artery (LA) on CT nerve responses during the initial seconds after a tastant was placed on the tongue. We found that CT responses to NaCl and HCl were increased by CCK-8 and decreased by CGRP. SP(4-11) had no noticeable effect. Peptide-induced CT responses to quinine HCl or sucrose were too small to accurately detect. These data suggest that at short latencies, after local infusion via the LA, neuropeptides can alter CT responses in a peptide-specific manner.     

Effects of exogenous cholecystokinin octapeptide on acquisition of naloxone precipitated withdrawal induced conditioned place aversion in rats

Cholecystokinin octapeptide (CCK-8), a gut-brain peptide, regulates a variety of physiological behavioral processes. Previously, we reported that exogenous CCK-8 attenuated morphine-induced conditioned place preference, but the possible effects of CCK-8 on aversively motivated drug seeking remained unclear. To investigate the effects of endogenous and exogenous CCK on negative components of morphine withdrawal, we evaluated the effects of CCK receptor antagonists and CCK-8 on the naloxone-precipitated withdrawal-induced conditioned place aversion (CPA). The results showed that CCK2 receptor antagonist (LY-288,513, 10 μg, i.c.v.), but not CCK1 receptor antagonist (L-364,718, 10 μg, i.c.v.), inhibited the acquisition of CPA when given prior to naloxone (0.3 mg/kg) administration in morphine-dependent rats. Similarly, CCK-8 (0.1-1 μg, i.c.v.) significantly attenuated naloxone-precipitated withdrawal-induced CPA, and this inhibitory function was blocked by co-injection with L-364,718. Microinjection of L-364,718, LY-288,513 or CCK-8 to saline pretreated rats produced neither a conditioned preference nor aversion, and the induction of CPA by CCK-8 itself after morphine pretreatments was not significant. Our study identifies a different role of CCK1 and CCK2 receptors in negative affective components of morphine abstinence and an inhibitory effect of exogenous CCK-8 on naloxone-precipitated withdrawal-induced CPA via CCK1 receptor.     

Modulation of passive avoidance behaviour of rats by intracerebroventricular administration of cholecystokinin octapeptide sulfate ester and nonsulfated cholecystokinin octapeptide

The effects of intracerebroventricular administration of different doses of cholecystokinin octapeptide sulfate ester (CCK-8-SE) and nonsulfated cholecystokinin octapeptide (CCK-8-NS) were tested on the latency of passive avoidance behaviour in rats. Treatments were carried out prior to learning trial, immediately after electroshock and prior to testing 24 h retention. Both CCK-8-NS and CCK-8-SE enhanced the latency of passive avoidance after all forms of treatment while showing different dose-response patterns depending on time of administration. These data indicate that CCK-8-SE and CCK-8-NS might play a role in the regulation of memory consolidation and retrieval.