Group III mGlu receptor agonists produce anxiolytic- and antidepressant-like effects after central administration in rats

It was well established that compounds which decrease glutamatergic transmission via blockade of NMDA or group I mGlu receptors produce anxiolytic- and antidepressant-like action in animal tests and models. Since group III metabotropic glutamate receptor (mGluR) agonists are known to reduce glutamatergic neurotransmission by the inhibition of glutamate release, we decided to investigate potential anxiolytic- and/or antidepressant-like effects of group III mGluR agonists, after central administration in rats. It was found that group III mGluR agonists, (1S,3R,4S)-1-aminocyclo-pentane-1,3,4-tricarboxylic acid (ACPT-I) and 2-amino-4-(3-hydroxy-5-methylisoxazol-4-yl)butyric acid (HomoAMPA), given intrahippocampally, produced a dose-dependent anxiolytic-like effect in the conflict drinking test. The effects of ACPT-I and HomoAMPA were reversed by (RS)-alpha-cyclopropyl-4-phosphonophenyl glycine (CPPG), group III mGluR antagonist. Moreover, a dose-dependent antidepressant-like action of group III mGluR agonists, ACPT-I and (RS)-4-phosphonophenylglycine (RS-PPG), but not HomoAMPA, was found in behavioral despair test, after intracerebroventricular injections, and the effect of ACPT-I was reversed by CPPG. The results obtained indicate that group III mGluR agonists produce anxiolytic- as well as antidepressant-like effects in behavioral tests, after central administration in rats. The reduction of glutamate release by group III mGluR activation may be a possible mechanism underlying anxiolytic- and antidepressant-like properties of the tested compounds. In conclusion, the results of our studies indicate that group III mGlu receptor agonists may play a role in the therapy of both anxiety and depression.     

Anti-amnesic effects of sigma (sigma)-receptor agonists

Both traditional and novel sigma (sigma)-receptor agonists have been reported to possess anti-amnesic effects in rodents. In particular, the anti-amnesic effects induced by the novel sigma1-receptor agonists, such as (+)-pentazocine, SA4503 and PRE-084, were shown in beta amyloid-peptide-induced, basal forebrain (BF)-lesioned and carbon monoxide (CO)-induced amnesia models and senescence-accelerated mouse (SAM). In addition, these sigma1-receptor agonists have good profiles for the central acetylcholine and dopamine systems. Moreover, they also have neuroprotective and anti-depressive effects. These evidence suggested that the sigma1-receptor agonists may be promising compounds for the treatment of dementing disorders such as Alzheimer's disease, senile dementia and vascular dementia. However, the sigma-receptor family is still considered to be enigmatic molecular targets. More molecular cloning and biochemical studies on the sigma-receptor family are needed.     

Green tea polyphenols produce antidepressant-like effects in adult mice

Recent studies have shown that a higher consumption of green tea leads to a lower prevalence of depressive symptoms in elderly individuals. However, no studies have explored the antidepressant-like effect of green tea in preclinical models of depression. The aim of this study was to investigate the antidepressant-like effects and the possible mechanism of action of green tea in widely used mouse models of depression. Mice were orally administered green tea polyphenols (GTP; 5, 10 and 20mg/kg) for 7days and assessed in the forced swimming test (FST) and tail suspension test (TST) 60min after the last GTP administration. Serum corticosterone and adrenocorticotrophic hormone (ACTH) levels were also determined immediately after the FST. Green tea polyphenols significantly reduced immobility in both the FST and TST but did not alter locomotor activity in the open field test, suggesting that GTP has antidepressant-like effects, and this action did not induce nonspecific motor changes in mice. Green tea polyphenols also reduced serum corticosterone and ACTH levels in mice exposed to the FST. The present study demonstrated that GTP exerts antidepressant-like effects in a mouse behavioral models of depression, and the mechanism may involve inhibition of the hypothalamic-pituitary-adrenal axis.     

Activation of the mGlu7 receptor elicits antidepressant-like effects in mice

Rationale Broad evidence indicates that modulation of the glutamatergic system could be an efficient way to achieve antidepressant activity. Metabotropic glutamate receptor (mGlu receptor) ligands seem to be promising agents to treat several central nervous system disorders, including psychiatric ones. Objectives The aim of our study was to investigate potential antidepressant-like activity of the first, selective, and bio-available mGlu7 receptor agonist, AMN082 (N,N′-dibenzyhydryl-ethane-1,2-diamine dihydrochloride), in wild-type (WT) and mGlu7 receptor knock-out (KO) mice. Materials and methods The forced swim test (FST) and the tail suspension test (TST) in mice were used to assess antidepressant-like activity of AMN082. Results We found that AMN082, administered IP, induced a dose-dependent decrease in the immobility time of WT animals in the FST and TST, suggesting antidepressant-like potency of an mGlu7 receptor agonist. Moreover, AMN082 did not change the behaviour of mGlu7 receptor KO mice compared to WT littermates in the TST, while imipramine, used as a reference control, significantly reduced their immobility, indicating an mGlu7 receptor-dependent mechanism of the antidepressant-like activity of AMN082. However, at high doses, AMN082 significantly decreased spontaneous locomotor activity of both mGlu7 receptor KO mice and WT control animals, suggesting off-target activity of AMN082 resulting in hypo-locomotion. Conclusions These results strongly suggest that activation of the mGlu7 receptor elicits antidepressant-like effects.     

Orally active adenosine A(1) receptor agonists with antinociceptive effects in mice

Adenosine A(1) receptor (A(1)AR) agonists have antinociceptive effects in multiple preclinical models of acute and chronic pain. Although numerous A(1)AR agonists have been developed, clinical applications of these agents have been hampered by their cardiovascular side effects. Herein we report a series of novel A(1)AR agonists, some of which are structurally related to adenosine 5'-monophosphate (5'-AMP), a naturally occurring nucleotide that itself activates A(1)AR. These novel compounds potently activate A(1)AR in several orthogonal in vitro assays and are subtype selective for A(1)AR over A(2A)AR, A(2B)AR, and A(3)AR. Among them, UNC32A (3a) is orally active and has dose-dependent antinociceptive effects in wild-type mice. The antinociceptive effects of 3a were completely abolished in A(1)AR knockout mice, revealing a strict dependence on A(1)AR for activity. The apparent lack of cardiovascular side effects when administered orally and high affinity (K(i) of 36 nM for the human A(1)AR) make this compound potentially suitable as a therapeutic.     

Involvement of the sigma1 (sigma1) receptor in the anti-amnesic, but not antidepressant-like, effects of the aminotetrahydrofuran derivative ANAVEX1-41

BACKGROUND AND PURPOSE: Tetrahydro-N, N-dimethyl-5, 5-diphenyl-3-furanmethanamine hydrochloride (ANAVEX1-41) is a potent muscarinic and sigma(1) (sigma (1)) receptor ligand. The sigma (1) receptor modulates glutamatergic and cholinergic responses in the forebrain and selective agonists are potent anti-amnesic and antidepressant DRUGS. WE HAVE HERE ANALYSED THE SIGMA (1) COMPONENT IN THE BEHAVIOURAL EFFECTS OF ANAVEX1-41. EXPERIMENTAL APPROACH: Binding of ANAVEX1-41 to muscarinic and sigma (1) receptors were measured using cell membranes. Behavioural effects of ANAVEX1-41 were tested in mice using memory (spontaneous alternation, passive avoidance, water-maze) and antidepressant-like activity (forced swimming) procedures. KEY RESULTS: In vitro, ANAVEX1-41 was a potent muscarinic (M(1)>M(3), M(4)>M(2) with K(i) ranging from 18 to 114 nM) and selective sigma (1) ligand (sigma (1), K(i)=44 nM; sigma (2), K(i)=4 microM). In mice, ANAVEX1-41 failed to affect learning when injected alone (0.03-1 mg kg(-1)), but attenuated scopolamine-induced amnesia with a bell-shaped dose response (maximum at 0.1 mg kg(-1)). The sigma (1) antagonist BD1047 blocked the anti-amnesic effect of ANAVEX1-41 on both short- and long-term memories. Pretreatment with a sigma (1) receptor-directed antisense oligodeoxynucleotide prevented effects of ANAVEX1-41 only in the passive avoidance procedure, measuring long-term memory. ANAVEX1-41 reduced behavioural despair at 30 and 60 mg kg(-1), without involving the sigma (1) receptor, as it was not blocked by BD1047 or the antisense oligodeoxynucleotide. CONCLUSIONS AND IMPLICATIONS: ANAVEX1-41 is a potent anti-amnesic drug, acting through muscarinic and sigma (1) receptors. The latter component may be involved in the enhancing effects of the drug on long-term memory processes.     

The antidepressant-like effect induced by the sigma(1) (sigma(1)) receptor agonist igmesine involves modulation of intracellular calcium mobilization

RATIONALE: Activation of the neuronal sigma(1) (sigma(1)) receptor potentiates calcium mobilization, leading to effective modulation of postsynaptic responses to neurotransmitters. At the behavioral level, sigma(1) agonists modulate learning, response to stress and depression. In particular, the selective sigma(1) agonist igmesine reduced immobility in the forced swimming test. OBJECTIVES AND METHODS: We investigated the effect of modulators of Ca(2+) influx and mobilization, administered intracerebroventricularly at doses ineffective alone, on the igmesine effect. The tricyclic antidepressant desipramine was also studied for comparison. RESULTS: The calcium chelator EGTA blocked both igmesine and desipramine-induced decreases of immobility duration, indicating the importance of extracellular Ca(2+) influx in the initial action of each compound. Both L- and N-type voltage-dependent calcium channel (VDCC) appeared involved in the sigma(1) agonist effect. Verapamil, an L-type VDCC antagonist or omega-conotoxin GVI, a N-type VDCC antagonist, blocked whereas (-)-Bay K8644, a L-type VDCC agonist, potentiated the igmesine effect. Mobilization of intracellular Ca(2+) stores is involved selectively in the effect mediated by the sigma(1) receptor, since the membrane permeable intracellular Ca(2+) chelator EGTA/AM affected only the igmesine effect. Inositol 1,4,5-trisphosphate (InsP(3)) receptor-sensitive Ca(2+) pools appeared primarily involved, rather than Ca(2+)/caffeine-sensitive Ca(2+) pools. Indeed, the InsP(3) receptor positive modulator bradykinin potentiated, whereas the InsP(3) receptor antagonist xestospongin C blocked the igmesine effect. The ryanodine receptor agonist caffeine failed to affect the efficacy of igmesine, whereas the antagonist ryanodine reduced it. CONCLUSIONS: The sigma(1) receptor-mediated behavioral effect is dependent not only on rapid Ca(2+) influx, as observed for a classical antidepressant, but also on intracellular Ca(2+) mobilization.     

Formalin-induced pain is reduced in sigma(1) receptor knockout mice

The role of sigma1 receptors in non-acute pain has not been explored. In this study we show that both phases of formalin-induced pain were reduced by approximately 55% in sigma1 receptor knockout mice in comparison to wild-type animals. These results suggest that the tonic pain induced by formalin is altered in mice lacking sigma1 receptors, and highlight the potential usefulness of further studies of the role of sigma1 receptors in models of non-acute pain.     

delta-Opioid receptor agonists produce antinociception and [35S]GTPgammaS binding in mu receptor knockout mice

We examined the effects of [D-Pen(2),D-Pen(5)]enkephalin (DPDPE), [D-Ala(2),Glu(4)]deltorphin (DELT), and (+)-4-[(alphaR)-alpha((2S, 5R)-4-Allyl-2,5-dimethyl-1-piperazinyl)-3-methoxybenzyl]-N, N-diethylbenzamide (SNC80) on [35S]GTPgammaS binding in brain membranes prepared from micro-opioid receptor knockout (-/-) mice. The potency and maximal response (E(max)) of these agonists were unchanged compared to control mice. In contrast, while the potency of [D-Pen(2),pCl-Phe(4),D-Pen(5)]enkephalin (pCl-DPDPE) was not significantly different, the E(max) was reduced as compared to controls. In the tail-flick test, intracerebroventricular (i.c.v.) or intrathecal (i.th.) DELT produced antinociceptive effects in -/- mice with potency that did not differ significantly from controls. In contrast, the antinociceptive potency of i.c.v. and i.th. DPDPE was displaced to the right by 4- and 9-fold in -/- compared to control mice, respectively. Reduced DPDPE antinociceptive potency in -/- mice, taken together with reduced DPDPE- and pCl-DPDPE- stimulated G protein activity in membranes prepared from -/- mice, demonstrate that these agonists require mu-opioid receptors for full activity. However, because DELT mediated G protein activation and antinociception were both comparable between -/- and wild type mice, we conclude that the mu-opioid receptor is not a critical component of delta-opioid receptor function.     

(Aminoalkoxy)chromones. Selective sigma receptor ligands.

A series of (aminoalkoxy)chromones has been prepared, members of which bind potently (16-100 nM) at the sigma binding site and bind weakly (greater than 1000 nM) at the dopamine D2 receptor and 33 other receptors, second messenger systems, and ion channels. At the sigma receptor, the preferred position of attachment for the aminoalkoxy side chain to the chromone ring followed the rank order: 7-position greater than 5-position greater than 6-position. Chromones that contained a 2-substituent that was not coplanar with the chromone ring system showed improved binding over compounds with coplanar substituents. The most potent compound at the sigma site, 7-[[7-(4-hydroxypiperidyl)heptyl]oxy]-2-phenylchromone (74), had receptor affinities (IC50) of 16 nM at the [3H]DTG site, 19 nM at the [3H]-(+)-3-PPP site, and 4000 nM (Ki) at the dopamine D2 receptor. The most selective compound examined, 6-[[6-(4-hydroxypiperidyl)hexyl]-oxy]-2-cyclopentylchromone (58), exhibited IC50s of 51 nM at the [3H]DTG site, 55 nM at the [3H]-(+)-3-PPP site, and 21,000 nM (Ki) at the dopamine D2 receptor. Compound 44 (6-[[6-(4-hydroxypiperidyl)hexyl]oxy]-3-methylflavone, NPC 16377) was systemically effective (ip and po) in two behavioral models predictive of antipsychotic compounds and systemically active in animal models of ischemia.     

The attenuation of learning impairments induced after exposure to CO or trimethyltin in mice by sigma (sigma) receptor ligands involves both sigma1 and sigma2 sites.

1. Sigma (sigma) receptor ligands were previously reported to alleviate learning and memory impairments on several pharmacological and pathological rodent models of amnesia. Such effect was demonstrated as involving the sigma1 subtype of sigma receptor. 2. In this study, we characterized the pharmacological effect mediated by sigma ligands on two lesional models of amnesia in mice: (1) the hypoxia-related learning and memory impairment model induced by repeated exposure to carbon monoxide (CO) gas; and (2) the intoxication with trimethyltin (1 mg kg(-1)). 3. The selective sigma1 ligand PRE-084 (1 mg kg(-1)) or the non-selective sigma1/sigma2 compounds DTG (0.1 mg kg(-1)), BD1008 (3 mg kg(-1)), and haloperidol (0.1 mg kg(-1)) reversed significantly the spontaneous alternation deficits observed 7 days after exposure to CO or 14 days after intoxication with trimethyltin. 4. The selective sigma1 receptor antagonist NE-100 (1 mg kg(-1)) was ineffective by itself, but blocked completely the PRE-084 effects, partially the DTG effects, and did not affect the effects induced by BD1008 or haloperidol. 5. A similar pharmacological profile was observed in the step-down type passive avoidance test performed 8 days after exposure to CO. 6. These results show that, in contrast to the previously reported amnesia models, the impairments induced after exposure to CO or intoxication with trimethyltin could be alleviated not only by sigma1 receptor agonists but also by sigma2 agonists. The particular pattern of neurodegeneration observed in these lesional models may explain these differences.     

Novel analogs of the sigma receptor ligand BD1008 attenuate cocaine-induced toxicity in mice

Previous studies have shown that BD1008 (N-[2-(3,4-dichlorophenyl)ethyl]-N-methyl-2-(1-pyrrolidinyl)ethylamine) and related analogs attenuate the toxicity and stimulant effects of cocaine through antagonism of sigma receptors. In the present study, six analogs of BD1008 (UMB 98-103) were synthesized and evaluated in receptor binding and behavioral studies. Competition binding studies confirmed that all six compounds have high affinity for sigma1 receptors, moderate affinity for sigma2 receptors, and low to negligible affinity for monoamine transporters, opioid, N-methyl-D-aspartate, dopamine, and 5-HT receptors. In behavioral pharmacological studies, pretreatment of mice with UMB 100, UMB 101, or UMB 103 significantly attenuated cocaine-induced convulsions and lethality. Together with earlier studies, the data suggest that analogs of BD1008 are promising medication development leads for reducing the toxicity of cocaine.     

Genetic inactivation of the NMDA receptor NR2A subunit has anxiolytic- and antidepressant-like effects in mice.

There is growing evidence implicating the glutamate system in the pathophysiology and treatment of mood and anxiety disorders. Glutamatergic neurotransmission is mediated by several receptor subfamilies including multiple NMDA receptor subunits (NR2A-D). However, little is currently understood about the specific roles of NMDA subunits in the mediation of emotional behavior due to a lack of subunit-specific ligands. In the present study, we employed a mouse gene-targeting approach to examine the role of the NR2A subunit in the mediation of anxiety- and depressive-related behaviors. Results showed that NR2A knockout (KO) mice exhibit decreased anxiety-like behavior relative to wild-type littermates (WT) across multiple tests (elevated plus maze, light-dark exploration test, novel open field). NR2A KO mice showed antidepressant-like profiles in the forced swim test and tail suspension test, as compared to WT controls. Locomotor activity in the nonaversive environments of the home cage or a familiar open field were normal in the NR2A KO mice, as were gross neurological and sensory functions, including prepulse inhibition of startle. Taken together, these data demonstrate a selective and robust reduction in anxiety- and depression-related behavior in NMDA receptor NR2A subunit KO mice. Present results support a role for the NR2A subunit in the modulation of emotional behaviors in rodents and provide insight into the role of glutamate in the pathophysiology and treatment of mood and anxiety disorders.     

Neuroanatomical basis for the antidepressant-like effects of the 5-HT(1A) receptor agonists 8-OH-DPAT and ipsapirone in the rat forced swimming test

In the rat forced swimming test, systemic application of the serotonin 1A (5-HT(1A)) receptor agonist 8-OH-DPAT reduced immobility (ID(50) 0.17-1.37mg/kg, depending on route of application and application schedule). Intracerebroventricular (i.c.v.) or local application into the dorsal raphe nucleus (DRN), a brain area rich in presynaptic 5-HT(1A) receptors, resulted in a parallel shift of the dose-response curve to the left (ID(50) 5.1 and 3.9μg/rat, respectively). Systemic application of the 5-HT(1A) receptor partial agonist ipsapirone resulted in a U-shaped dose-response curve (maximal effect about 30% immobility reduction at 3-10mg/kg). Local application of ipsapirone in the DRN reduced immobility (maximal effect 40% at 60μg/rat). However, 8-OH-DPAT and ipsapirone were still effective after depletion of brain 5-HT by means of 5,7-DHT (150μg, i.c.v.) or pCPA (either 2 x 150mg/kg or 2 x 350mg/kg, i.p.) Additionally, in non-lesioned rats: (1) the putative (postsynaptic) 5-HT(1A) antagonist NAN-190, but not spiperone, haloperidol, prazosin or 1-PP, was able to block the anti-immobility effects of 8-OH-DPAT in a behaviorally specific manner; (2) local application of 8-OH-DPAT and ipsapirone in the lateral septum (a brain area rich in postsynaptic 5-HT(1A) receptors) reduced immobility (8-OH-DPAT: ID(50) 11.4μg/rat; ipsapirone; maximal effect at 30μg/rat 38%); and (3) pretreatment with ipsapirone resulted in an attenuation of the effect of 8-OH-DPAT when both compounds were administered either systemically or in the lateral septum but not when both compounds were microinjected into the DRN. It is hypothesized that the anti-immobility effects of 5-HT(1A) receptor agonists are mediated by pre- and postsynaptic 5-HT(1A) receptors and that they closely reflect the intrinsic activity of these compounds at these receptors.     

Novel piperidine sigma receptor ligands as potential antipsychotic drugs.

sigma receptor ligands represent a new class of potential antipsychotic drugs. This paper presents the structure-activity relationships leading to novel disubstituted piperidine sigma ligands, which have little or no affinity for dopamine D2 receptors. Selectivity for sigma sites over dopamine D2 or serotonin 5-HT2 receptors appears to be governed by the chemical nature of the piperidine nitrogen substituent, its distance from the basic nitrogen, and its orientation relative to the other piperidine substituent. Several of these compounds have good oral potency in some animal models used to evaluate potential antipsychotic drugs. The N-cyclopropylmethyl ketones and ethers (e.g. 6i (DuP 734), 6q, 18a, and 18n) have the best in vivo potency. Compounds 6i (DuP 734) and 6q did not cause catalepsy in the rat, even at very high doses. On the basis of the pharmacology profiles of these sigma ligands, we propose these compounds may be effective antipsychotic drugs, which do not induce extrapyramidal side effects or tardive dyskinesia.     

Trehalose induced antidepressant-like effects and autophagy enhancement in mice

Rationale

The disaccharide trehalose protects cells from hypoxic and anoxic injury and suppresses protein aggregation. In vivo studies with trehalose show cellular and behavioral beneficial effects in animal models of neurodegenerative diseases. Moreover, trehalose was shown to enhance autophagy, a process that had been recently suggested to be involved in the therapeutic action of antidepressant and mood-stabilizing drugs.

Objective

The present study was therefore designed to explore antidepressant and mood-stabilizing activity of trehalose in animal models for depression and mania.

Methods

Trehalose 1 or 2 % was administered for 3 weeks as a drinking solution to Black Swiss mice (a model of manic-like behaviors) or 2 % to ICR mice and their behavior evaluated in a number of tests related to depression or mania. The effects of trehalose were compared with similar chronic administration of the disaccharide maltose as well as with a vehicle (water) control.

Results

Chronic administration of trehalose resulted in a reduction of frontal cortex p62/beclin-1 ratio suggesting enhancement of autophagy. Trehalose had no mood-stabilizing effects on manic-like behavior in Black Swiss mice but instead augmented amphetamine-induced hyperactivity, an effect similar to antidepressant drugs. In ICR mice, trehalose did not alter spontaneous activity or amphetamine-induced hyperactivity but in two separate experiments had a significant effect to reduce immobility in the forced swim test, a standard screening test for antidepressant-like effects.

Conclusions

The results suggest that trehalose may have antidepressant-like properties. It is hypothesized that these behavioral changes could be related to trehalose effects to enhance autophagy.     

Sigma (sigma) receptor and neurosteroids

Studies on the sigma receptor and related compounds are becoming more attractive since they were found to be closely related to higher brain functions such as memory, learning, depression, anxiety, schizophrenia and neuroprotection. Along with these pharmacological findings, the single transmembrane-type, non-metabotropic sigma binding protein has been cloned, while the presence of metabotropic sigma receptor has been also claimed. Thus, various pharmacological findings are now ready to be characterized on the molecular basis of receptor mechanisms. On the other hand, neurosteroids have higher brain functions such as non-genomic fast actions, which are similar to the actions of sigma compounds. Indeed some neurosteroids were revealed to behave as sigma agonists while others behave like antagonists of metabotropic sigma receptors. Pharmacological studies to determine if sigma compounds can be used to cure various central symptoms related to neurosteroids or steroid hormones can be expected.     

Conformationally restricted analogs of BD1008 and an antisense oligodeoxynucleotide targeting sigma1 receptors produce anti-cocaine effects in mice.

Cocaine's ability to interact with sigma receptors suggests that these proteins mediate some of its behavioral effects. Therefore, three novel sigma receptor ligands with antagonist activity were evaluated in Swiss Webster mice: BD1018 (3S-1-[2-(3,4-dichlorophenyl)ethyl]-1,4-diazabicyclo[4.3.0]nonane), BD1063 (1-[2-(3,4-dichlorophenyl)ethyl]-4-methylpiperazine), and LR132 (1R,2S-(+)-cis-N-[2-(3,4-dichlorophenyl)ethyl]-2-(1-pyrrolidinyl)cyclohexylamine). Competition binding assays demonstrated that all three compounds have high affinities for sigma1 receptors. The three compounds vary in their affinities for sigma2 receptors and exhibit negligible affinities for dopamine, opioid, GABA(A) and NMDA receptors. In behavioral studies, pre-treatment of mice with BD1018, BD1063, or LR132 significantly attenuated cocaine-induced convulsions and lethality. Moreover, post-treatment with LR132 prevented cocaine-induced lethality in a significant proportion of animals. In contrast to the protection provided by the putative antagonists, the well-characterized sigma receptor agonist di-o-tolylguanidine (DTG) and the novel sigma receptor agonist BD1031 (3R-1-[2-(3,4-dichlorophenyl)ethyl]-1,4-diazabicyclo[4.3.0]nonane) each worsened the behavioral toxicity of cocaine. At doses where alone, they produced no significant effects on locomotion, BD1018, BD1063 and LR132 significantly attenuated the locomotor stimulatory effects of cocaine. To further validate the hypothesis that the anti-cocaine effects of the novel ligands involved antagonism of sigma receptors, an antisense oligodeoxynucleotide against sigma1 receptors was also shown to significantly attenuate the convulsive and locomotor stimulatory effects of cocaine. Together, the data suggests that functional antagonism of sigma receptors is capable of attenuating a number of cocaine-induced behaviors.     

Acute antidepressant-like and antianxiety-like effects of tryptophan in mice

The antidepressant-like, antianxiety-like and sedative effects of tryptophan (TRP), in the absence and presence of p-chlorophenylalanine (p-CPA), and melatonin were studied in mice using the forced-swimming test, open-field test and activity cage, respectively. Single-dose TRP caused an antidepressant-like effect dose dependently up to 125 mg/kg. No significant effect was observed, however, when the TRP dose was increased to 250 mg/kg, i.e. a reversal of effect occurred at high dose. With p-CPA pretreatment, the effects observed at 125 and 250 mg/kg TRP were similar to those obtained at 50 and 125 mg/kg without p-CPA pretreatment, respectively. Melatonin also caused an antidepressant-like effect in a similar manner, but appeared to be less potent than TRP. These results strongly indicate that the antidepressant-like effect of TRP was due to its conversion to 5-hydroxytryptamine (5-HT). An antianxiety-like effect was observed for TRP only at 250 mg/kg dose together with p-CPA pretreatment, while no sedative effect was observed at all. In contrast, melatonin did not produce any antianxiety-like effect, but produced sedation at 200 mg/kg dose. It may be concluded that the antianxiety-like effect of TRP is unrelated to 5-HT and melatonin formation, but associated with TRP itself or, perhaps, with other anxiolytic metabolites.     

Involvement of the sigma 1 receptor in the motivational effects of ethanol in mice

In the present study, we examined the involvement of the sigma(1) (sigma(1)) receptor in several behavioral manifestations of ethanol addiction. Administration of ethanol (0.5, 1, and 2 g/kg) in Swiss mice dose-dependently induced locomotor stimulation, conditioned place preference, and conditioned taste aversion, which are considered as behavioral index of drug-induced reward. Pretreatment with the selective sigma(1) receptor antagonist N-[2-(3,4-dichlorophenyl)ethyl]-N-methyl-2-(dimethylamino)ethylamine (BD1047, 3-30 mg/kg) dose-dependently blocked ethanol (1 g/kg)-induced hyperlocomotion and taste aversion and ethanol (2 g/kg)-induced place preference. Pretreatment with the selective sigma(1) receptor agonist 2-(4-morpholino)ethyl 1-phenylcyclohexane-1-carboxylate (PRE-084, 1-10 mg/kg) before ethanol (0.5 g/kg) failed to affect the resulting locomotor stimulation, but dose-dependently enhanced the conditioned place preference. Each sigma(1) receptor ligand was devoid of behavioral effect by itself. These observations show that activation of the sigma(1) receptor is a necessary component of ethanol-induced motivational effects and suggest a new pharmacological target for alleviating ethanol addiction.