Behavioral effects of flumazenil in the social conflict test in mice

The anxiolytic effect of perampanel and possible mechanisms mediating its anxiolytic effect in mice

AIMS

The aim of this study is to investigate the anxiolytic activity of perampanel, a non-competitive antagonist of alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA)-type glutamate receptors, which is approved for partial-onset seizures in patients with epilepsy, and its mechanism of action.

MAIN METHODS

The anxiolytic activity of perampanel at the doses of 0.25, 0.5, 1, 2, and 4 mg/kg intraperitoneally (i.p.) was investigated in mice using elevated plus-maze, hole-board, and open-field tests. The findings were compared to the anxiolytic activity of gamma-aminobutyric acid type A benzodiazepine (GABA_A/BZ) receptor allosteric modulator diazepam (1 mg/kg, i.p.) and AMPA antagonist GYKI-53655 (5 mg/kg, i.p.). The mechanisms of action of perampanel were evaluated by pre-treatment with GABA_A/BZ receptor antagonist flumazenil (3 mg/kg, i.p.), serotonin 5-hydroxytryptamine 1A (5-HT_1A) antagonist WAY-100635 (1 mg/kg, i.p.), and α₂-adrenoreceptor antagonist yohimbine (5 mg/kg, i.p.).

KEY FINDINGS

In the elevated plus-maze and open-field tests, perampanel at the dose of 0.5 mg/kg, and in the hole-board test, at the doses of 0.25, 0.5, and 1 mg/kg demonstrated an anxiolytic effect without altering the locomotor activity. The effect of perampanel was comparable to the effect of diazepam. Stimulation of GABA_A/BZ and α₂-adrenergic receptors contributed to the anxiolytic effect of perampanel, since significant antagonisms were determined in various behavioral parameters by the antagonist pre-treatments.

SIGNIFICANCE

AMPA antagonism is believed to provide the determined anxiolytic activity of perampanel. Increased GABAergic tonus induced by AMPA receptor antagonism along with other systems, especially the noradrenergic system, might be involved in the anxiolytic activity.

Use of Rodent Sedation Tests to Evaluate Midazolam and Flumazenil in Green Iguanas (Iguana iguana)

This study aimed to evaluate the applicability of rodent behavioral tests to assess the effects of midazolam and flumazenil in green iguanas. Four tests commonly used to assess sedation in rodents-the open field test, forced swim test, behavioral scale, and traction test-were conducted in 10 juveniles iguanas. The animals received midazolam (2 mg/kg IM) or 0.9% NaCl (0.4 mL/kg IM), and the tests were conducted between 0 and 300 min thereafter. To verify the effects of midazolam and flumazenil, the most informative tests from the evaluation stage and the limb withdrawal latency time (LWLT) were used. All 10 iguanas were tested under 4 conditions, as follows: MS, midazolam (2 mg/kg IM), followed 30 min later by 0.9% NaCl (0.4 mL/kg IM); FS, flumazenil (0.05 mg/kg IM), followed by 0.9% NaCl (0.4 mL/kg IM) 30 min later; MF, midazolam (2 mg/ kg IM), followed by flumazenil (0.05 mg/kg IM) 30 min later; and CON, 0.9% NaCl (0.4 mL/kg IM). The behavioral scale and the forced swim test showed the best detection of the onset, peak effect, and the differences between the sedated and control iguanas, with testing done between 15 and 240 min after drug administration. The sedative effect of midazolam began at 15 min and persisted through 180 min when assessed on the behavioral scale and 240 min when assessed by the forced swim test; flumazenil administration reversed the sedative effect. An increase in the LWLT was observed in the midazolam treatment groups between 15 and 30 min after drug administration. Flumazenil decreased LWLT between 15 and 180 min in the FS and at 60 min in the MF. In conclusion, the best methods to assess sedation in iguanas were the behavioral scale and the forced swim test. A dose of 2 mg/kg of midazolam was effective at inducing sedation in these juvenile iguanas, and this effect could be reversed by flumazenil.

Genetic loss of diazepam binding inhibitor in mice impairs social interest

Neuropsychiatric disorders in which reduced social interest is a common symptom, such as autism, depression, and anxiety, are frequently associated with genetic mutations affecting γ-aminobutyric acid (GABA)ergic transmission. Benzodiazepine treatment, acting via GABA type-A receptors, improves social interaction in male mouse models with autism-like features. The protein diazepam binding inhibitor (DBI) can act as an endogenous benzodiazepine, but a role for DBI in social behavior has not been described. Here, we investigated the role of DBI in the social interest and recognition behavior of mice. The responses of DBI wild-type and knockout male and female mice to ovariectomized female wild-type mice (a neutral social stimulus) were evaluated in a habituation/dishabituation task. Both male and female knockout mice exhibited reduced social interest, and DBI knockout mice lacked the sex difference in social interest levels observed in wild-type mice, in which males showed higher social interest levels than females. The ability to discriminate between familiar and novel stimulus mice (social recognition) was not impaired in DBI-deficient mice of either sex. DBI knockouts could learn a rotarod motor task, and could discriminate between social and nonsocial odors. Both sexes of DBI knockout mice showed increased repetitive grooming behavior, but not in a manner that would account for the decrease in social investigation time. Genetic loss of DBI did not alter seminal vesicle weight, indicating that the social interest phenotype of males lacking DBI is not due to reduced circulating testosterone. Together, these studies show a novel role of DBI in driving social interest and motivation.

Achyranthes aspera Attenuates epilepsy in experimental animals: possible involvement of GABAergic mechanism

The present study was aimed to examine the possible anticonvulsant property of aerial parts of Achyranthes aspera using various experimental models of epilepsy in mice. Petroleum ether extract of aerial parts of A. aspera (PeAA), methanolic eAA (MeAA) and aqueous eAA (AeAA) was initially evaluated against six-hertz seizure model in mice, based on the outcomes the effective extract was further evaluated against maximal electroshock (MES) and pentylenetetrazole (PTZ) models in mice. In addition, the potent extract was evaluated against the PTZ model by co-administering with flumazenil (FMZ), and also evaluated for its effect on GABA levels in brain and NMDA-induced lethality in mice. Furthermore, the probable locomotor deficit-inducing property of the extract was evaluated by actophotometer test in mice. In results, only MeAA showed protection against six-hertz-induced seizures in mice, based on these outcomes only MeAA was evaluated in MES and PTZ models. Notably, the MeAA (200, 400 and 800 mg/kg) has offered mild and dose dependent protection against MES and PTZ-induced seizures in mice. Alongside, the MeAA (400 mg/kg) showed a significant increase in GABA levels in the brain compared to control, and in line with these findings the anti-PTZ effect of MeAA (400 mg/kg, p.o.) was blocked when co-administered with flumazenil (5 mg/kg, i.p.). However, the MeAA has not shown significant protection against NMDA-induced mortality and also did not cause significant change in locomotor activity compared to before treatment. These findings suggest that MeAA possess mild anticonvulsant activity and the outcomes further confirmed the involvement of GABAergic mechanism behind the anticonvulsant activity of MeAA.

Ameliorative potential of Colebrookea oppositifolia methanolic root extract against experimental models of epilepsy: Possible role of GABA mediated mechanism

BACKGROUND

Colebrookea oppositifolia Smith is one of the commonly used plants to treat epilepsy by various folk medicine communities like nomadic Gujjars, Tharu and Bhoxa in sub-Himalayan regions of India.

PURPOSE

The present study was undertaken to evaluate the anticonvulsant activity of roots of Colebrookea oppositifolia using various experimental models of epilepsy in mice.

METHODS

Petroleum ether extract of roots of C. Oppositifolia (PeCO), methanolic eCO (MeCO) and aqueous eCO (AeCO) was initially evaluated in six-hertz-seizure test in mice, the effective extract was further evaluated against maximal electroshock (MES) and pentylenetetrazole (PTZ) models in mice. In addition, the potent extract was evaluated against the PTZ model by co-administering with flumazenil (FMZ), and also evaluated for its effect on brain GABA levels in brain and NMDA-induced lethality in mice. Furthermore, the possible locomotor deficit-inducing property of the extract was evaluated by actophotometer test in mice.

RESULTS

In six-hertz-seizure test the MeCO (25, 50, 100 and 200mg/kg) and AeCO (50, 100, 200, 400 and 800mg/kg) showed significant protection compared to control group, and MeCO was more potent than AeCO. Based on these outcomes, only MeCO was evaluated in MES and PTZ models. Notably, the MeCO (25, 50, 100 and 200mg/kg) has offered significant and dose- dependent protection against MES and PTZ-induced seizures in mice. Alongside, the MeCO (100 and 200mg/kg) showed a significant increase in GABA levels in the brain compared to control. In line with these findings, the anti-PTZ effect of MeCO (100mg/kg, p.o.) was blocked when co-administered with flumazenil (3mg/kg, i.p.),and in NMDA-induced mortality test, the MeCO has shown only 50% protection at 200mg/kg dose, thus confirmed the significant role of GABA pathway. Interestingly, the MeCO did not cause significant change in locomotor activity compared to before treatment.

CONCLUSION

These findings suggest that MeCO possess significant anticonvulsant activity and the outcomes further confirmed the involvement of GABAergic mechanisms behind the anticonvulsant activity of MeCO.

Endogenous ligands of benzodiazepine binding site have inverse agonistic properties

Benzodiazepines have been widely used in clinical praxis for many decades. They act as GABAA receptor agonists and possess muscle-relaxant, hypnotic-sedative, anticonvulsant, and anxiolytic properties. Flumazenil acts as a benzodiazepine receptor antagonist (subunits α1, α2, α3, and α5) or partial agonist (subunits α4 and α6). It competitively inhibits the activity at the benzodiazepine recognition site on the GABA/benzodiazepine receptor complex, thereby reversing the effects of benzodiazepines. In our experiments, administration of flumazenil in rabbits was surprisingly associated with anxiolytic effects similar to those of midazolam. Additionally, flumazenil significantly and dose-dependently decreased the total number of vocalizations in rats, i.e. it was anxiolytic. These observations seem to be in contrast to the effect of flumazenil in humans, where it is believed to produce mainly anxiogenic effects. It seems that in individuals, who exhibit anxiogenic behavior or in individuals with anticipation anxiety, flumazenil acts as an anxiolytic agent, while in individuals without any signs of anxiety, flumazenil can also act as anxiogenic agent. Thus, we hypothesize that flumazenil is associated with decreased intensity of anticipatory anxiety due to occupancy of benzodiazepine binding sites by an endogenous ligand with inverse agonistic properties.

Reduction of aggression during benzodiazepine withdrawal: effects of flumazenil

Benzodiazepine withdrawal has been associated with hostile and aggressive behavior. The benzodiazepine antagonist flumazenil has reduced, increased or not affected hostility and aggression in animal and human studies. In the present study we analyzed data collected in a placebo-controlled study of the effects of the benzodiazepine antagonist flumazenil in patients previously treated for benzodiazepine dependency, and healthy controls. The aim was to analyze the effects of flumazenil on hostility and aggression. Ten patients and 10 controls received, on two separate occasions, cumulative doses of flumazenil (0.05, 0.1, 0.25, 0.5 and 1mg at 15min intervals) or placebo. Withdrawal symptoms were rated after each injection. Patients had been free from benzodiazepines for 47 (4-266) weeks on the first occasion. A three-way interaction (groupxtreatmentxdose) was found, and was explained by: 1) patients rating aggression and hostility higher than controls at all times during placebo, while 2) during the flumazenil provocation i) the initial significant difference between patients and controls was no longer significant above the 0.5mg dose, and ii) patients rated aggression and hostility significantly lower above the 0.5mg dose compared to base-line. The results suggest that self-rated aggression and hostility in patients treated for benzodiazepine dependency was reduced by the partial benzodiazepine agonist flumazenil.

Anti-conflict effects of benzodiazepines in rhesus monkeys: relationship with therapeutic doses in humans and role of GABAA receptors

RATIONALE AND OBJECTIVES

Conflict procedures are used to study mechanisms underlying the anxiolytic effects of benzodiazepines (BZs). We established a conflict procedure with rhesus monkeys in order to examine the role of GABAA receptors in the anxiolytic-like effects of BZs.

METHODS

Four rhesus monkeys responded under a two-component multiple schedule in which responding was maintained under a fixed-ratio schedule of food delivery in the absence (non-suppressed responding) and presence (suppressed responding) of response-contingent electric shock.

RESULTS

Conventional BZs (alprazolam, flunitrazepam, clonazepam, nitrazepam, lorazepam, bromazepam, diazepam, flurazepam, clorazepate, chlordiazepoxide) engendered increases in the average rates of suppressed responding at low to intermediate doses and decreased the average rates of non-suppressed responding at higher doses. Positive correlations were observed when the therapeutic potencies of BZs in humans were compared with potencies to increase the rates of suppressed responding (R2=0.83) or decrease the rates of non-suppressed responding (R2=0.60). The 5-HT1A agonist buspirone increased the rates of suppressed responding, although the effects were modest, whereas the opioid morphine lacked anti-conflict effects. The BZ antagonist flumazenil also modestly increased the rates of suppressed responding. A relatively low dose of flumazenil enhanced, while a high dose blocked, alprazolam's anti-conflict effects. Compounds selective for alpha1 subunit-containing GABAA receptors (zolpidem, zaleplon, CL218,872) engendered relatively weak increases in the rates of suppressed responding.

CONCLUSIONS

A rhesus monkey conflict procedure was established with predictive validity for therapeutic doses in people and provided evidence that anxiolytic-like effects of BZs can occur with relatively low intrinsic efficacy at GABAA receptors and are reduced by alpha1GABAA receptor selectivity.

Felbamate reduces hormone release and locomotor hypoactivity induced by repeated stress of social defeat in mice

Glutamatergic neurotransmission plays a role in stress hormone release and the development of mood diseases. The aim of these studies was to verify the hypothesis that repeated treatment with felbamate, an antiepileptic drug modulating glutamatergic neurotransmission, affects hormone release in response to chronic stress. A mouse model of repeated social defeat (nonaggressive male mouse repeatedly defeated by aggressive counterparts) was used. The results showed that acute treatment with felbamate reduced hypolocomotion in an open field induced by repeated social conflict. The same stress procedure resulted in increased release of corticosterone and dopamine. Felbamate decreased noradrenaline concentrations and inhibited stress-induced rise in corticosterone and dopamine. It is suggested that modulation of stress hormone release may be induced by the action of felbamate on glutamate neurotransmission, and neuroendocrine changes could contribute to behavioural effects of the drug. Antidepressant action of this mood-stabilizing drug suggested by clinicians needs further verification.