Nishant S. Jain

Involvement of endocannabinoids in antidepressant and anti-compulsive effect of fluoxetine in mice.

Endocannabinoid analogues exhibit antidepressant and anti-compulsive like effects similar to that of serotonin selective reuptake inhibitors (SSRIs) indicating a parallelism between the effects of serotonin and endocannabinoids. Therefore, the present study was designed to investigate the role of endocannabinoids in the antidepressant and anti-compulsive like effect of fluoxetine using mice model of forced swim test (FST) and marble-burying behavior (MBB). The results revealed that intracerebroventricular injections of endocannabinoid analogues, anandamide, a CB(1) agonist (AEA: 1-20 μg/mouse); AM404, an anandamide transport inhibitor (0.1-10 μg/mouse); and URB597, a fatty acid amide hydrolase inhibitor (0.05-10 μg/mouse) produced antidepressant-like effect dose-dependently, whereas influenced the MBB in a biphasic manner (produced a U-shaped dose-response curve). Fluoxetine (2.5-20 mg/kg, i.p.) dose dependently decreased the immobility time as well as burying behavior. Co-administration of sub-effective dose of fluoxetine (2.5 mg/kg, i.p.) potentiated the effect of sub-effective dose of AEA (0.5 μg/mouse, i.c.v.), AM404 (0.05 μg/mouse, i.c.v) or URB597 (0.01 μg/mouse, i.c.v) in both the paradigms. Interestingly, pretreatment with AM251, a CB(1) antagonist, blocked the effect of fluoxetine in FST and MBB at a dose (1 μg/mouse, i.c.v) that per se had no effect on either parameter. Similar effects were obtained with endocannabinoid analogues in AM251 pretreated mice. However, AM251 increased the burying behavior in MBB at a highest dose tested (5 μg/mouse). None of the treatments had any influence on locomotor activity. Thus, the study indicates an interaction between endocannabinoid and serotonergic system in regulation of depressive and compulsive-like behavior.

Endocannabinoid analogues exacerbate marble-burying behavior in mice via TRPV1 receptor

Activation of cannabinoid CB(1) receptor is shown to inhibit marble-burying behavior (MBB), a behavioral model for assessing obsessive-compulsive disorder (OCD). Anandamide, an endogenous agonist at CB(1) receptor also activates the transient receptor potential vanilloid type 1 (TRPV1) channels but at a higher concentration. Furthermore, anandamide-mediated TRPV1 effects are opposite to that of the CB(1) receptor. Therefore, the present study was carried out to investigate the influence of low and high doses of anandamide on MBB in CB(1) and TRPV1 antagonist pre-treated mice. The results revealed that i.c.v. administration of lower doses of anandamide (1-10 μg/mouse) or its analogues (AM404 or URB597; 1-5 μg/mouse) inhibited MBB indicating the anticompulsive activity. Conversely, at higher doses (40 or 20 μg/mouse) these compounds increased MBB similar to capsaicin (TRPV1 agonist, 100 μg/mouse) exhibiting a pro-compulsive effect. Pretreatment with AM251 (CB(1) antagonist, 1 μg/mouse) antagonized the anticompulsive effect of these compounds, while their pro-compulsive effect at higher doses was attenuated by inactive dose of capsazepine (TRPV1 antagonist, 10 μg/mouse). However, capsazepine per se at a higher dose (100 μg/mouse) inhibited MBB. When given daily for 14 days, the anticompulsive effect of anandamide and its analogues gradually disappeared, whereas capsazepine either alone or with URB597 produced consistent inhibition of MBB comparable to fluoxetine. Thus, the study indicates the biphasic influence of anandamide on MBB, and chronic administration of capsazepine either alone or with URB597 might be an effective tool in the treatment of OCD.

Central histaminergic transmission modulates the ethanol induced anxiolysis in mice.

Intrigued by the report demonstrating an increase in brain histamine levels by ethanol administration and central histamine transmission to affect the anxiety related behaviors, the present study examined the permissive role of central histaminergic transmission in the acute anxiolytic-like effect of the ethanol on elevated plus maze (EPM) in mice. Results demonstrated that prior administration of the agents that are known to enhance the brain histamine transmission, i.e. low dose of histamine (0.1μg/mouse, i.c.v.) or histamine precursor, l-histidine (500, 1000mg/kg, i.p.) or low dose of histamine releasing agent (H3 receptor inverse agonist), thioperamide (2μg/mouse) attenuated the acute anitanxiety-like effect of ethanol (2g/kg, i.p, 8% w/v) in mice on EPM. However, pre-treatment with the H1 receptor antagonist, cetirizine (0.1μg/mouse, i.c.v.) or H2 receptor antagonist, ranitidine (50μg/mouse, i.c.v.) failed to affect the attenuating effect of low dose of histamine on ethanol induced anxiolysis. On the other hand, only H1 receptor antagonist, cetirizine (0.1μg/mouse, i.c.v.) was able to partially reverse the attenuation of ethanol induced anxiolysis by l-histidine (1000mg/kg, i.p.). Surprisingly, in mice pre-treated with the higher dose of histamine (50μg/mouse, i.c.v.) or thioperamide (10μg/mouse, i.c.v.), the ethanol (2g/kg, i.p.) induced antianxiety-like effect was further enhanced on EPM. Furthermore, this potentiating effect of high dose of histamine on the ethanol (2g/kg, i.p.) was exacerbated on pre-treatment with the H1 receptor antagonist, cetirizine, while H2 receptor antagonist, ranitidine completely reversed this action of high dose of histamine on ethanol. Supportive to these results, i.c.v. pre-treatment with H1 receptor agonist, FMPH (2, 6.5μg/mouse, i.c.v.) attenuated while H2 receptor agonist, amthamine (0.1, 0.5μg/mouse, i.c.v.) enhanced the ethanol induced anxiolysis in mice. Thus, it is reasonable to contemplate that central histaminergic transmission functions to negatively modulate the acute ethanol-induced anxiolysis probably via stimulation of postsynaptic H1 receptor and histamine might contribute to the anxiolytic action of ethanol via H2 receptor activation.

Contribution of the central histaminergic transmission in the cataleptic and neuroleptic effects of haloperidol.

The antipsychotic properties of haloperidol are primarily attributed to its ability to block dopamine D2 receptors. Histaminergic transmission modulates some of the behavioral effects of haloperidol. Hence, the present study investigated the contribution of central histaminergic transmission in the cataleptic and neuroleptic effect of haloperidol respectively, using bar test and conditioned avoidance response (CAR) in a two-way shuttle box. The studies revealed that haloperidol (0.50 or 1 mg/kg, i.p.) exhibited cataleptic behavior and inhibited conditioned avoidance response (CAR) in the doses 0.25 or 0.50 mg in rats. The rats, pretreated centrally (i.c.v.) with histamine precursor, L-histidine (1, 2.5 μg) or histamine neuronal inducer (H3 receptor antagonist), thioperamide (20, 50 μg/rat), showed an enhanced cataleptic effect with sub-maximal dose of haloperidol (0.5 mg/kg, i.p.). Similarly, the neuroleptic effect of haloperidol (0.25 mg/kg, i.p.) in CAR was also potentiated in the rats pretreated with L-histidine (2.5 μg) or thioperamide (50 μg/rat). Further, the cataleptic effect of haloperidol (1 mg/kg, i.p.) was attenuated in rats pretreated with the H1 receptor antagonist, chlorpheniramine (60, 80 μg/rat, i.c.v.) or H2 receptor antagonist, ranitidine (60 μg/rat, i.c.v.). However, the neuroleptic effect of haloperidol (0.5 mg/kg, i.p.) was completely reversed by pretreatment with ranitidine (60 μg/rat, i.c.v.), and partially attenuated by chlorpheniramine (80 μg/rat, i.c.v.). These findings suggest the possible involvement of histaminergic transmission in the cataleptic and neuroleptic effects of haloperidol probably via H1 or H2 receptor stimulation.

Stability Indicating High Performance Thin Layer Chromatographic Method for the Determination of Tramadol Hydrochloride in Pharmaceutical Formulation

The proposed stability indicating method for the determination of tramadol hydrochloride by high-performance thin-layer chromatography in the pharmaceutical formulations was found to be specific, precise, and validated. The stationary phase employed was a precoated silica gel 60 F254 aluminum TLC plate. Several mobile phase combinations of varying polarity of solvent were tried for the method development, as well as for the resolution of degradation products from the parent densitogram of drug. Finally, the mobile phase containing a mixture of ethyl acetate:methanol:ammonia (9:0.8:0.5 v/v/v) was found to be satisfactory for the resolution of degradation products from the parent drug. Densitometric analysis of tramadol hydrochloride was carried out in the reflectance–absorbance mode at 271 nm. The Rf value of the drug was obtained at 0.64 ± 0.02 with sharp symmetrical peak. The degraded products formed under acidic, oxidative, and an alkali conditions were strongly retained. Linear relationships between concentration of analyte and corresponding peak area were observed over the range of 1000–6000 ng at the selected wavelength with an R2 value of 0.999 ± 0.0007. The validation for specificity, precision, robustness, and recovery of the method was also performed. The present method effectively separated the tramadol hydrochloride from its degradation products.

Role of histamine H1 receptor in caffeine induced locomotor sensitization

The present study elucidated the role of histamine H1 receptor in the caffeine induced locomotor sensitization. Intermittent administration of caffeine (15 mg/kg, i.p.) on alternate days (induction phase) i.e. 1st, 3rd, 5th, 7th, 9th, 11th and 13th resulted in the development of locomotor sensitization. In addition, challenge with sub-stimulant dose of caffeine (10 mg/kg, i.p.) directly on 17th day to induction group animals resulted in expression to locomotor sensitization to caffeine. I.c.v. injection of histaminergic agents concomitantly with caffeine during induction phase i.e. histamine H1 receptor agonist, FMPH (6.5 μg/mouse) significantly potentiated while H1 receptor antagonist, cetirizine (0.1 μg/mouse) attenuated the locomotor sensitization induced by caffeine (15 mg/kg, i.p.). In addition, challenge with caffeine (10 mg/kg, i.p.) on the expression day (17th) to the induction group mice on FMPH + caffeine treatment showed enhanced, while those on cetirizine + caffeine treatment exhibited lesser expression to locomotor sensitization. Therefore, a possible contributory role of the central histaminergic system via H1 receptor stimulation or up-regulation in the caffeine-induced locomotor sensitizing effect is proposed.

Enhanced central histaminergic transmission attenuates compulsive-like behavior in mice

ABSTRACT Present investigation demonstrated the effect of central histaminergic transmission on the compulsive‐like marble burying and spontaneous alteration behavior (SAB) in mice. Result demonstrates that on enhancement of endogenous histaminergic transmission in mice achieved by central (i.c.v.) administration of histamine or central histamine neuronal releaser, H3 receptor antagonist or on intraperitoneal (i.p.) administration of histamine precursor, l‐histidine significantly attenuated the number of marble buried in marble burying behavior (MBB) test as well as obliterated the persistent behavior induced by 5‐HT1A receptor agonist, 8‐OH‐DPAT in T‐Maze test. Furthermore, central injection of histamine H1 receptor agonist, FMPH or H2 receptors agonist, amthamine also attenuated the MBB in mice. On the other hand, prior i.c.v administration of H1 but not H2 receptor antagonist attenuated the effects exhibited in MBB test on mice by all the above agents capable of enhancing the endogenous central histaminergic transmission. Thus, the results of the present investigation delineate the attenuating effect of central histaminergic transmission predominantly via H1 receptor on compulsive‐like behavior in mice. HIGHLIGHTSRole of endogenous histamine in the modulation of compulsive‐like behavior is proposed.Histamine, l‐histidine and H3 receptor antagonist attenuates marble burying and spontaneous alteration behavior in mice.Histamine H1 receptor antagonism counteracts the anti‐compulsive‐like effect of histamine.