Leptin decreases feeding and exploratory behaviour via interactions with CCK(1) receptors in the rat

We assessed the effects of peripheral leptin on anxiety and exploratory behaviour in the elevated plus-maze and in the four-hole box or Y-maze tests, in rats fed 80% of normal daily food intake and rats fed ad libitum. In the Y-maze test, i.p. injection of 0.4 or 1 mg/kg leptin into rationed rats significantly decreased the percentage of spontaneous alternation behaviour and increased the number of visits. In the elevated plus-maze test, rationed rats spent significantly more time in the open arms (aversive part of the maze) than did rats fed ad libitum. This difference in behaviour was abolished by injecting 0.4 mg/kg leptin. In the four-hole box test, i.p. administration of 1 mg/kg leptin significantly reduced the duration and number of hole visits in rationed and ad libitum fed rats. As with leptin inhibition of food intake, these behavioural changes caused by leptin were prevented by a CCK(1) receptor antagonist (L364,718), at a dose that had no effect by itself. Finally, a 20-min stress that increased corticosterone and ACTH levels had no effect on circulating leptin levels and on the leptin content of epididymal fat tissue, stomach and brain. Thus, leptin induces hypoexploration and decreases spontaneous alternation in rats and these effects are partly dependent on nutritional status. These results also suggest that the CCK system may be involved in the induction of these behavioural changes in rats by leptin, via the CCK(1) receptor.     

Exploration of mice in a black and white test box: validation as a model of anxiety

The validity of a black and white test box to measure changes in mouse exploratory behaviour relevant to assessment of anxiety was investigated by variation of the illumination within the test box, the use of different strains of mice, holding conditions and drug treatments. The suppression of exploratory activity in the white section caused by bright illumination was antagonised by anxiolytic agents from the benzodiazepine series, buspirone, 5-HT3 receptor antagonists, alcohol, nicotine, morphine and SCH23390. The anxiogenic agent FG7142 exacerbated the behavioural suppression. Black C57/BL/6, brown DBA2 and albino BKW mice were sensitive to the effects of drug treatments, whereas albino Tuck mice were less responsive. It is concluded that the characteristic change in mouse exploratory behaviour caused by anxiolytic agents is to preferentially increase exploratory behaviour in the white aversive section of the black and white test box. It is most consistently shown by (a) an increased time spent in the white section with proportional increases in (b) rearings and (c) ambulation and (d) a delay in the initial transition from the white to the black section.     

Manifestations of the antinociceptive and anxiolytic properties of the compound GB-115: interactions of cholecystokinin and opioid systems

The antinociceptive and anxiolytic properties of the new drug GB-115 (0.0125-4 mg/kg, i.p.), which is a short peptide antagonist of CCK2-receptors, have been studied in rats and mice using thermal models of nociception and the standard "elevated plus-maze" (EPM) test for measuring anxiety. It s established that GB-115 (4 mg/kg) significantly increases the response latency in naloxone-independent manner in the "hot plate" test in mice and produced a moderate naloxone-reversible analgesic effect in the "tail flick" test in mice. The blocking of opioid receptors by naloxone does not influence the anxiolytic effects of GB-115 (0.025 and 4 mg/kg) in the EPM test on rats. It has been suggested that GB-115 produced anxiolytic acting on CCK2-receptors, and its role in the control of pain perception is manifested through the interaction with opioidergic mechanisms on a spinal level rather than with non-opioid mechanisms on a supraspinal level.     

Effects of the alpha- and gamma-polymorphs of glycine on the behavior of catalepsy prone rats

Glycine is used to treat various health problems and is efficient in the treatment of the negative symptoms of schizophrenia. Since glycine exists as a few polymorphs, the aim of this work is to compare the effects of the alpha- and gamma-forms of glycine on the behavior of the genetic catalepsy (GC) strain of rats. Both polymorphs of glycine have been administered to rats orally as pure solid chemicals, and cataleptic behavior and behaviors in the open-field, elevated plus-maze, and light-dark box tests were studied. Both the alpha- and gamma-polymorphs of glycine increased exploratory activity in the open-field test, but only the gamma-polymorph had beneficial effects on catalepsy and exploratory activity in the light-dark box and reduced anxiety in the elevated plus-maze.     

Decreased anxiety-like behavior in beta3 nicotinic receptor subunit knockout mice

Nicotine, via a family of nicotinic acetylcholine receptors, elicits many physiological responses, including alterations in anxiety. Studies suggest that the effects of nicotine on anxiety may support smoking behaviors. We reported previously that mice lacking the beta3 nicotinic receptor subunit demonstrate increased activity in the open field arena. Open field activity has been shown to be a composite of anxiety and locomotor activity, behaviors that are both altered by nicotine. We therefore sought to differentiate the role(s) of beta3-containing receptors in anxiety and locomotor activity. Anxiety behaviors were examined in the elevated plus maze, the black/white box and the mirrored chamber. Beta3 null mutant mice demonstrated decreased anxiety with more time spent on the open arm of the elevated plus maze than their wildtype littermates. No significant differences were observed with the black/white box or the mirrored chamber. Levels of the stress hormone, corticosterone, were significantly higher in the beta3 null mutant mice at baseline and following exposure to stress. Increased locomotor activity in the Y-maze was also observed for the beta3 null mutant mice, but only following exposure to stress. These findings strongly suggest that beta3-containing nicotinic receptors influence anxiety and may be critical for the continuation of smoking behaviors.     

Oral etonitazene and cocaine consumption by AA,ANA and Wistar rats

Peripheral administration of the unsulphated cholecystokinin octapeptide (CCK-8us) led to an anxiogenic-like action in the elevated plus-maze model of anxiety in rats. Devazepide and L-365, 260 showed potent anxiolytic-like effects at similar doses. The fact that devazepide is 1000 times more potent as a CCK-A receptor antagonist than L-365, 260, whereas the two compounds are nearly equipotent at the CCK-B receptor subtype, suggests that CCK-B rather than CCK-A receptors are involved in these effects. Similar results were obtained in mice using the two-compartment test. In the elevated plus-maze, the benzodiazepine antagonist, flumazenil, which was inactive when given alone, significantly antagonized the anxiogenic-like activity of CCK-8us and the anxiolytic-like effects of devazepide and L-365, 260. These results suggest a complex interaction between benzodiazepine and CCK receptor mechanisms in the regulation of anxiety states.     

Acute stress enhances anxiolytic-like drug responses of mice tested in a black and white test box

Drug-induced facilitation of exploration of a two-compartment black and white test box was studied in mice applying different stressors before test. Tail suspension suppressed exploration of both compartments and enhanced diazepam- or eltoprazine-induced increase of exploration of the white compartment. (−)-Penbutolol reversed the effects of eltoprazine suggesting involvement of 5-HT_1A/1B receptors. Buspirone had weak effects both under standard conditions, and after tail suspension. Ritanserin suppressed exploratory behavior, and this effect was potentiated by tail suspension. In conclusion, application of acute tail suspension stress immediately before test in the black and white box enhanced the sensitivity to drugs. In contrast to this, forced swimming suppressed general behavioral activity, but in this case diazepam facilitated the behavior in both compartments. Foot shocks immediately before test reduced activity in the black compartment and did not affect the behavior in the white compartment. Thus different acute stressors modified behavior in the black and white box differently. Chronic stress (crowded housing) produced an anxiolytic-like response.     

Role of CCK in anti-exploratory action of paroxetine, 5-HT reuptake inhibitor

The administration of paroxetine (0.5-8 mg/kg), a selective 5-HT reuptake inhibitor, induced a dose-dependent reduction of exploratory activity of rats in the motility test. In the elevated plus-maze paroxetine was less effective, only 8 mg/kg of paroxetine decreased the exploratory behaviour of rats. The doses of paroxetine (2-8 mg/kg) reducing the exploratory activity in the motility test increased the density of CCK receptors in the frontal cortex, but not in the hippocampus. The treatment of rats with the CCK(B) receptor antagonist LY288,513 (0.01-1 mg/kg) did not change the exploratory activity. However, the reduction of exploratory activity induced by the low dose of paroxetine (2 mg/kg), but not by the higher dose (8 mg/kg), was dose-dependently reversed by the administration of LY288,513. Moreover, LY288,513 did not affect the anti-exploratory action of paroxetine (8 mg/kg) in the elevated plus-maze. Diazepam at doses (0.5-1.0 mg/kg) not suppressing the locomotor activity did not change the anti-exploratory action of paroxetine in the motility test. It is likely that the anti-exploratory action of a low dose of paroxetine (2 mg/kg) is not related to the increase in anxiety, but rather to the reduction of exploratory drive. Evidence exists that this effect of paroxetine is mediated via the activation of CCK-ergic transmission.     

Relation of exploratory behavior of rats in elevated plus-maze to brain receptor binding properties and serum growth hormone levels

Forty-five male Wistar rats were selected according to their behavior in the elevated plus-maze. They were separated as follows: animals with low exploratory activity (‘anxious'), an ‘intermediate' group and animals having high exploratory activity (‘non-anxious'). Various receptor binding studies and hormonal assays were also performed in these selected rats. The affinity of 5-hydroxytryptamine 5-HT_2A receptors in the frontal cortex was lower in the ‘anxious' rats compared to home-cage controls and ‘non-anxious' animals. Moreover, the number of cholecystokinin (CCK) receptors in the hippocampus was significantly elevated in the ‘anxious' group compared to home-cage control animals. The blood levels of growth hormone (GH) were significantly lower in the ‘non-anxious' rats compared to ‘anxious' counterparts. In conclusion, it seems likely that the decreased exploratory activity of rats is related to the increased 5-hydroxytryptamine (5-HT) and CCK mediated neurotransmission in the brain. The different serum levels of GH in the selected rats probably reflect alterations in the activity of 5-HT and CCK.     

The 5-HT1A receptor agonist MKC-242 increases the exploratory activity of mice in the elevated plus-maze

The effect of (S)-5-[3-[(1,4-benzodioxan-2-ylmethyl)amino]propoxy]-1,3-benzodioxole HCl (MKC-242), a 5-HT(1A) receptor agonist, on mouse behavior was examined in the elevated plus-maze. MKC-242 significantly increased the percentage of open-arm entries and the percentage of open-arm time, indices of anxiety reduction, while it did not increase the enclosed-arm entries and time spent in enclosed arms. The effect of MKC-242 was antagonized by a low dose of the 5-HT(1A) receptor antagonist N-[2-[4-(2-methoxyphenyl)-1-piperazinyl]ethyl]-N-(2-pyridinyl)cyclohexanecarboxamide which alone did not affect the behavior. These findings suggest that MKC-242 increases the exploratory activity of mice in the elevated plus-maze via activation of 5-HT(1A) receptors, probably the presynaptic autoreceptors.     

Targeted invalidation of CCK<Subscript>2</Subscript> receptor gene induces anxiolytic-like action in light–dark exploration,but not in fear conditioning test

Rationale Evidence suggests that γ-aminobutyric acid (GABA) and cholecystokinin (CCK) have opposite roles in the regulation of anxiety. Objectives The aim of our work was to study the behaviour of CCK₂ receptor deficient mice in light–dark exploration and fear conditioning tests. Moreover, the action of diazepam and methyl-6,7-dimethoxy-4-ethyl-β-carboline-3-carboxylate (DMCM), having the opposite effect on GABA_A receptors, was evaluated on the exploratory behaviour in these mice. Expression levels of GABA_A receptor subunit genes were also measured. Methods Light–dark exploration and fear conditioning tests were used to determine changes in anxiety of mice. The action of diazepam (0.5–2 mg/kg i.p.) and DMCM (0.25–1 mg/kg i.p.) was studied in the light–dark box. The effect of DMCM was also evaluated in the motor activity test to demonstrate that its anti-exploratory action was not related to motor suppression. Expression levels of GABA_A receptor subunit genes were determined by means of real-time polymerase chain reaction (qRT-PCR). Results Female mice lacking CCK₂ receptors displayed increased exploratory activity in the light–dark box compared to their wild-type (+/+) littermates. Locomotor activity in the motility boxes and the intensity of freezing did not differ in wild-type (+/+) and homozygous (−/−) mice. Treatment with diazepam (0.5 mg/kg) increased the number of transitions in wild-type (+/+) animals, whereas in homozygous (−/−) mice diazepam (0.5–2 mg/kg) reduced exploratory activity. Administration of DMCM (0.25–1 mg/kg) induced an anxiogenic-like effect in homozygous (−/−) mice, but did not change their locomotor activity. Gene expression analysis established a 1.6-fold increase in the expression of the α2 subunit of GABA_A receptors in the frontal cortex of homozygous (−/−) mice. Conclusion Genetic invalidation of CCK₂ receptors induced an anxiolytic-like action in exploratory, but not in conditioned models of anxiety. The observed reduction in anxiety in homozygous (−/−) mice is probably related to an increased function of GABAergic system in the brain.     

Ethological analysis of cholecystokinin (CCKA and CCKB) receptor ligands in the elevated plus-maze test of anxiety in mice

The literature on the effects of CCK receptor manipulations in animal models of anxiety is rife with inconsistency, and the data subject to a variety of methodological and interpretative difficulties. In the present paper, the effects of a range of CCK receptor ligands on anxiety in male mice have been assessed using an ethological version of the elevated plusmaze test. Compounds selected for study were the agonists, CCK-4 and CCK-8s (12.5–100µg/kg), and the antagonists, devazepide, L-365, 260 and PD 135158 (1.0 µg/kg–1.0mg/kg). CCK-4 failed to produce any significant behavioural effects over the dose range tested, while treatment with the sulphated octapeptide, CCK-8s, induced signs of behavioural inhibition at 100 µ/kg without altering anxiety-related indices. Furthermore, in contrast to the clear anxiolytic profile of diazepam (1 mg/kg), and despite the comprehensive behavioural profiles yielded by ethological analysis, all three CCK receptor antagonists studied (devazepide, L-365, 260 and PD 135158) were found to be without significant effect under present test conditions. Together, present findings provide little support for the involvement of CCK receptor mechanisms in anxiety and, in particular, the form of anxiety evoked in mice by exposure to a plus-maze.     

Differential sensitivity to the anxiolytic effects of ethanol and flunitrazepam in PKCgamma null mutant mice.

Tests of ethanol effects in PKCgamma null mutant mice have indicated that PKCgamma plays a role in initial sensitivity to ethanol-induced sedation, hypothermia, and GABA(A) receptor function and impacts neurochemical pathways mediating anxiety. The present study was undertaken to evaluate whether the decreased sensitivity to ethanol previously observed in these mice generalized to the anxiolytic effects of ethanol. PKCgamma null mutant mice and wild-type controls were tested in the elevated-plus maze, the black/white box, and the mirrored chamber after ethanol (0, 1.0, 1.25, 1.5 g/kg) or flunitrazepam (FNZ) (0, 0.015, 0.03, 0.06 mg/kg). Results indicated that although both genotypes exhibited anxiolytic responses to ethanol in the elevated plus-maze, null mutant mice were less sensitive than wild-type control mice; however, in the black/white box, PKCgamma null mutants were more sensitive than controls to the anxiolytic effects of FNZ. Neither ethanol nor FNZ produced anxiolytic responses in the mirrored chamber for either genotype. These results suggest that PKCgamma differentially mediates anxiolytic responses to ethanol and FNZ and that this relationship interacts with each drug's efficacy in reducing anxiety-related behaviors specific to each of the three mazes.     

Odor-induced variation in anxiety-like behavior in mice is associated with discrete and differential effects on mesocorticolimbic cholecystokinin mRNA expression.

The present investigation assessed alterations in mesocorticolimbic cholecystokinin (CCK) mRNA following novel predator and non-predator odor exposure and light-dark testing in CD-1 mice. In brief, acute exposure of CD-1 mice to the predator odor, 2,5-dihydro-2, 4,5-trimethylthiazoline (TMT; the major component of the anal gland secretions of the red fox), or the control odor, butyric acid (BA), suppressed rearing behavior during odor presentation, subsequently induced anxiety in the light dark test, and was associated with increased mesocorticolimbic CCK mRNA relative to saline treated mice. Only mice exposed to TMT displayed elevated freezing behaviors during odor treatment. In the light-dark test, mice exposed to either BA or TMT took longer to reenter the light section of the apparatus and spent less cumulative time in the light relative to mice exposed to saline. The decreased time spent in the light as well as light dark transitions were exaggerated among mice exposed to fox odor. Odor presentation was associated with increased CCK mRNA in mesocorticolimbic sites. Butyric acid was associated with enhanced CCK gene expression in the VTA, while both BA and TMT were associated with increased medial prefrontal cortex (mPFC) CCK mRNA levels. Increased CCK mRNA within the VTA and mPFC was evident among mice despite testing in the light-dark box. In contrast, basolateral nucleus of the amygdala (BLA) CCK mRNA was enhanced following odor exposure among mice in the light dark test relative only to saline treated mice which demonstrated a natural decrease in BLA CCK mRNA following the light dark test. The differential pattern of CCK mRNA associated with discrete psychogenic stressor manipulations and the provocation of anxiety-like behavior associated with such experiences is discussed.     

Anxiolytic-like effects of inhaled linalool oxide in experimental mouse anxiety models

Linalool oxide is a monoterpene that is found in some species of aromatic plants. The effects of the inhalation of linalool oxide (0.65%, 1.25%, 2.5% and 5.0% w/w) in the elevated plus-maze and light/dark box tests as animal models of anxiety were investigated in adult male mice and compared with the effects of the reference anxiolytic diazepam (0.5 and 2.0 mg/kg), administered intraperitoneally. Additionally, the effects of inhaled linalool oxide were investigated in the rotarod test. Linalool oxide significantly increased the number of visits to the open arms of the elevated plus-maze and the amount of time spent there as well as the total number of entries. In the light/dark box test, inhalation of linalool oxide led to an increase in the time spent by the mice in the brightly-lit chamber and in the number of times the animal crossed from one compartment to another. Performance on the rotarod was unaffected. Thus, inhaled linalool oxide was found to have anxiolytic properties in both animal models, without causing any motor deficit. These results suggest that inhalation of linalool oxide may be a useful means of counteracting anxiety.     

The anxiolytic and anxiogenic actions of ethanol in a mouse model

The administration to mice of ethanol in the drinking water for 7 days modified exploratory activity (rearings/line crossings) in an anxiety testing box separated into white and black sections with an interconnecting door. During ethanol intake mice exhibited reduced anxiety responding, shown as increased rearings and line crossings in the white section, to which the mice are normally averse, with corresponding decreased behaviour in the black section. When naive mice were presented with a choice between normal drinking water and drinking water containing ethanol, they consumed sufficient of the latter to secure a full anxiolytic response, making up the total volume of fluid required by also drinking the former. A 48 h withdrawal from a 14 day treatment with ethanol caused a reversed profile of exploratory behaviour, directed preferentially at the black section of the test box, and indicative of an anxiogenic response. Diazepam, tiapride or clonidine given twice daily during withdrawal from ethanol could each secure a reduction in the withdrawal anxiogenesis. It is concluded that the simple model of anxiety described in the mouse may be useful for eludicating the mechanisms involved in the anxiolytic and anxiogenic potential of ethanol and may aid the search for novel agents having potential to suppress withdrawal anxiogenesis.     

Zacopride: anxiolytic profile in rodent and primate models of anxiety

Zacopride, a substituted benzamide derivative, was compared with diazepam in three models of experimental or provoked anxiety. The drug's action (i) in reducing aversion to a brightly lit environment was assessed in mice using a two compartment black and white test box system, (ii) in disinhibiting a suppressed behaviour was measured in the rat social interaction test under high light/unfamiliar conditions and (iii) in antagonizing a defensive response in the marmoset was assessed using the threat of a human presence. Both zacopride and diazepam enhanced exploratory behaviour and social interaction in the mouse and rat models and antagonized the defensive response in the marmoset, zacopride being 100 times more potent than diazepam. It is concluded that the 5-HT3 receptor antagonist, zacopride, alters rodent and primate behaviour in a manner consistent with that of an anxiolytic agent.     

Targeted mutation of CCK2 receptor gene modifies the behavioural effects of diazepam in female mice

Rationale Evidence suggests that GABA and CCK have opposite roles in the regulation of anxiety. Objective The aim of the present work was to study diazepam-induced anxiolytic-like action and impairment of motor co-ordination, and the parameters of benzodiazepine receptors in mice lacking CCK₂ receptors. Methods The action of diazepam (0.5–3 mg/kg IP) was studied in the elevated plus-maze model of anxiety and rotarod test using mice lacking CCK₂ receptors. The parameters of benzodiazepine receptors were analysed using [³H]-flunitrazepam binding. Results In the plus-maze test, the exploratory activity of the homozygous (−/−) mice was significantly higher compared to their wild-type (+/+) littermates. However, the wild-type (+/+) mice displayed higher sensitivity to the anxiolytic-like action of diazepam. Even the lowest dose of diazepam (0.5 mg/kg) induced a significant increase of open arm entries in the wild-type (+/+) mice. A similar effect in the homozygous (−/−) mice was established after the administration of diazepam 1 mg/kg. The highest dose of diazepam (3 mg/kg) caused a prominent anxiolytic-like effect in the wild-type (+/+) mice, whereas in the homozygous (−/−) animals suppression of locomotor activity was evident. The performance of the homozygous (−/−) mice in the rotarod test did not differ from that of the wild-type (+/+) littermates. However, a difference between the wild-type (+/+) and homozygous (−/−) animals became evident after treatment with diazepam. Diazepam (0.5 and 3 mg/kg) induced significantly stronger impairment of motor co-ordination in the homozygous (−/−) mice compared to their wild-type (+/+) littermates. The density of benzodiazepine binding sites was increased in the cerebellum, but not in the cerebral cortex and hippocampus, of the homozygous (−/−) mice. Conclusions Female mice lacking CCK₂ receptors are less anxious than their wild-type (+/+) littermates. The reduced anxiety in homozygous (−/−) mice probably explains why the administration of a higher dose of diazepam is necessary to induce an anxiolytic-like action in these animals. The highest dose of diazepam (3 mg/kg) induced significantly stronger suppression of locomotor activity and impairment of motor co-ordination in the homozygous (−/−) mice compared to the wild-type (+/+) littermates. The increase in the action of diazepam is probably related to the elevated density of benzodiazepine receptors in the cerebellum of homozygous (−/−) mice. The present study seems to be in favour of increased tone of the GABAergic system in mice without CCK₂ receptors.     

The anxiogenic-like effect of caffeine in two experimental procedures measuring anxiety in the mouse is not shared by selective A2A adenosine receptor antagonists

Rationale: The elevated plus-maze and the light/dark box are two established anxiety tests in rodents, which are useful to screen putative anxiogenic effects of drugs. Objective: Caffeine is well known to promote anxious behaviour in humans and animal models, but the precise site of action of the drug is still a matter of debate. The present study investigated whether the anxiogenic effects of caffeine observed in mice depend on the blockade of A_2A receptor. First, the effects induced by the non-selective drug caffeine were compared with those elicited by two selective A_2A receptor antagonists over a wide range of doses in the same experimental conditions. The effects of A_2A or A₁ adenosine receptor agonists and of a selective A₁ adenosine receptor antagonist were also investigated. Second, wild-type and A_2A receptor knockout mice offered another approach to delineate the role played by A_2A receptor in caffeine’s anxiogenic effects. Methods: Mice were exposed to the elevated plus-maze or to the light/dark box for 5 min after acute or chronic administration of tested drugs. Results: Caffeine acutely administered (50 or 100 mg/kg IP) induced anxiety-like effects in both procedures. Its chronic administration (50 mg/kg IP twice daily) for 1 week or consumption in the drinking water (0.3 g/l) for 8 days or 2 months were also anxiogenic in the plus-maze test. The A_2A receptor antagonists ZM241385 (up to 60 mg/kg IP) and SCH58261 (up to 10 mg/kg IP) were devoid of acute effects in both tests. One week administration of ZM241385 (30 mg/kg IP) or SCH58261 (3 mg/kg IP) had no effects in the plus-maze test. An antagonist (DPCPX) and an agonist (CPA) at A₁ receptors had no acute effects on anxiety-related indices, whereas an A_2A receptor agonist (CGS 21680) displayed non-specific motor effects in the plus-maze test. Acute administration of caffeine (50 mg/kg IP) induced no clear-cut anxiety-like effects in the plus-maze test in A_2A receptor knockout mice that exhibited higher basal anxiety levels than wild-type mice. Chronic administration (50 mg/kg IP twice daily) for 1 week elicited less anxiety-like behaviour in A_2A receptor knockout than in wild-type mice. Conclusions: Adaptative mechanisms following mutation in A_2A receptors or their long-term blockade after chronic ingestion of caffeine may be responsible for increase proneness to anxiety. However, the short-term anxiety-like effect of caffeine in mice might not be related solely to the blockade of adenosine A_2A receptors, since it is not shared by A_2A selective antagonists. Received: 21 March 1999 / Final version: 24 June 1999     

The neuropeptide Y Y1 receptor subtype is necessary for the anxiolytic-like effects of neuropeptide Y,but not the antidepressant-like effects of fluoxetine,in mice

Rationale Neuropeptide Y (NPY) is implicated in the pathophysiology of affective illness. Multiple receptor subtypes (Y1R, Y2R, and Y5R) have been suggested to contribute to NPY’s effects on rodent anxiety and depression-related behaviors. Objectives To further elucidate the role of Y1R in (1) NPY’s anxiolytic-like effects and (2) fluoxetine’s antidepressant-like and neurogenesis-inducing effects. Methods Mice lacking Y1R were assessed for spontaneous anxiety-like behavior (open field, elevated plus-maze, and light/dark exploration test) and Pavlovian fear conditioning, and for the anxiolytic-like effects of intracerebroventricularly (icv)-administrated NPY (elevated plus-maze). Next, Y1R −/− were assessed for the antidepressant-like effects of acute fluoxetine in the forced swim test and chronic fluoxetine in the novelty-induced hypophagia test, as well as for chronic fluoxetine-induced hippocampal neurogenesis. Results Y1R −/− exhibited largely normal baseline behavior as compared to +/+ littermate controls. Intraventricular administration of NPY in Y1R −/− mice failed to produce the normal anxiolytic-like effect in the elevated plus-maze test seen in +/+ mice. Y1R mutant mice showed higher immobility in the forced swim test and longer latencies in the novelty-induced hypophagia test. In addition, Y1R −/− mice responded normally to the acute and chronic effects of fluoxetine treatment in the forced swim test and the novelty-induced hypophagia test, respectively, as well as increased neuronal precursor cell proliferation in the hippocampus. Conclusions These data demonstrate that Y1R is necessary for the anxiolytic-like effects of icv NPY, but not for the antidepressant-like or neurogenesis-inducing effects of fluoxetine. The present study supports targeting Y1R as a novel therapeutic target for anxiety disorders.