Patrice Venault

Early Life Blockade of 5-Hydroxytryptamine 1A Receptors Normalizes Sleep and Depression-Like Behavior in Adult Knock-Out Mice Lacking the Serotonin Transporter

In serotonin transporter knock-out (5-HTT−/−) mice, extracellular serotonin (5-HT) levels are markedly elevated in the brain, and rapid eye movement sleep (REMS) is enhanced compared with wild-type mice. We hypothesized that such sleep impairment at adulthood results from excessive serotonergic tone during early life. Thus, we assessed whether neonatal treatment with drugs capable of limiting the impact of 5-HT on the brain could normalize sleep patterns in 5-HTT−/− mutants. We found that treatments initiated at postnatal day 5 and continued for 2 weeks with the 5-HT synthesis inhibitor para-chlorophenylalanine, or for 4 weeks with the 5-HT1A receptor (5-HT1AR) antagonist N-[2-[4-(2-methoxyphenyl)-1-piperazinyl]ethyl]-N-(2-pyridinyl) cyclohexane carboxamide (WAY 100635), induced total or partial recovery of REMS, respectively, in 5-HTT−/− mutants. Early life treatment with WAY 100635 also reversed the depression-like behavior otherwise observed in these mutants. Possible adaptive changes in 5-HT1AR after neonatal treatment with WAY 100635 were investigated by measuring 5-HT1A binding sites and 5-HT1A mRNA in various REMS- and/or depression-related brain areas, as well as 5-HT1AR-mediated hypothermia and inhibition of neuronal firing in the dorsal raphe nucleus. None of these characteristics were modified in parallel with REMS recovery, suggesting that 5-HT1ARs involved in wild-type phenotype rescue in 5-HTT−/− mutants are located in other brain areas or in 5-HT1AR-unrelated circuits where they could be transiently expressed during development. The reversal of sleep alterations and depression-like behavior after early life blockade of 5-HT1AR in 5-HTT−/− mutants might open new perspectives regarding preventive care of sleep and mood disorders resulting from serotonin transporter impairments during development.

Convulsions induced by submaximal dose of pentylenetetrazol in mice are antagonized by the benzodiazepine antagonist Ro 15-1788

The effects of benzodiazepine antagonist Ro 15-1788, alone or with diazepam, were studied in mice on convulsions induced by pentylenetetrazol (PTZ). We found that Ro 15-1788 (1 mg/kg) was able to antagonize the anticonvulsive effects of diazepam (1 mg/kg), but also had, with submaximal doses of PTZ (65 mg/kg), its own anticonvulsive action. At very low doses (0.1 mg/kg), it even potentiated the anticonvulsive effects of diazepam (0.05 mg/kg). This dual action provides evidence for partial agonist properties of the antagonist Ro 15-1788.

Balance control and posture in anxious mice improved by SSRI treatment.

A task requiring dynamic postural stabilisation during locomotion in a conflicting visual vestibular environment (rotating beam), has been devised to assess anxiety-related balance impairments and postural changes in mice. The model, already validated with acutely administered diazepam, was used to assess the action of two chronically administered selective serotonin reuptake inhibitors (SSRIs), fluoxetine and paroxetine. On three behavioural measures (imbalance, elevation of trunk and angle of tail), observed in anxious BALB/cByJ mice, both compounds had the same diazepam-like effects: reduction in number of imbalances, higher elevation of trunk and increase in tail angle. These data suggest, for the first time, that SSRIs should be useful in the treatment of anxiety-induced balance impairments.

Demonstration of the partial agonist profiles of Ro 16-6028 and Ro 17-1812 in mice in vivo

Benzodiazepine receptor occupancy by the full agonist, diazepam, and by the two putative partial agonists, Ro 16-6028 and Ro 17-1812, was measured by inhibition of in vivo [3H]Ro 15-1788 binding in mouse brain and was correlated with their pharmacological effects. The anticonvulsant effects of Ro 16-6028, Ro 17-1812 and diazepam (ED50 values) appeared at receptor occupancies of 40, 20 and less than 5%, respectively. Moreover, at the highest measurable receptor occupancy (90-100%), Ro 16-6028 and Ro 17-1812 did not induce any rotarod deficit whereas a complete deficit was observed with diazepam at 35% receptor occupancy.

Enhancement of performance by methyl β-carboline-3-carboxylate, in learning and memory tasks☆

Benzodiazepines are known to induce a profound anterograde amnesia in man. In this report, it is shown that methyl beta-carboline-3-carboxylate (beta-CCM), an inverse agonist of the benzodiazepine receptor, has the opposite effect; it enhances performance in learning and memory tasks. Three different learning models were used: habituation to a new environment and passive avoidance in mice and imprinting in chicks. The opposite effects of both beta-CCM and the benzodiazepine diazepam were blocked by administration of the benzodiazepine receptor antagonist Ro 15-1788, providing evidence that the benzodiazepine receptor is involved in these effects.

A pharmacological link between epilepsy and anxiety

Abstract Clinical and experimental evidence suggests a relationship between two important pathological traits, epilepsy and anxiety, that might involve the GABA A receptor. To demonstrate a direct link, anxiogenic responses induced by a benzodiazepine receptor ligand have been assessed in mice selected for their sensitivity to epilepsy. The results provided evidence for a link between seizuring and anxiety, but showed no direct involvement of GABA A receptors.

Divergent levels of anxiety in mice selected for differences in sensitivity to a convulsant agent

Spontaneous behavior patterns were assessed in eight different behavioral situations in two lines of mice, BR and BS, previously selected for their sensitivity to an anxiogenic benzodiazepine (BZ) receptor inverse agonist, Methyl beta-carboline-3-carboxylate (beta-CCM). BR is highly resistant, and BS, highly sensitive to beta-CCM-induced seizures. Tests used included an assessment of general locomotor activity, several situations classically used for measuring fear-motivated behaviors (open field, thigmotaxis, elevated plus-maze, light-dark discrimination, staircase), a test for measuring exploration (holeboard), and a test for measuring nociception (hot-plate). In the absence of beta-CCM, the results provide evidence of reduced motor activity and higher levels of anxiety in the BR line as compared to the BS line.

Anxiety in Mice: A Principal Component Analysis Study

Two principal component analyses of anxiety were undertaken investigating two strains of mice (ABP/Le and C57BL/6ByJ) in two different experiments, both classical tests for assessing anxiety in rodents. The elevated plus-maze and staircase were used for the first experiment, and a free exploratory paradigm and light-dark discrimination were used for the second. The components in the analyses produced definitions of four fundamental behavior patterns: novelty-induced anxiety, general activity, exploratory behavior, and decision making. We also noted that the anxious phenotype was determined by both strain and experimental procedure. The relationship between behavior patterns and the use of specific tests plus links with the genetic background are discussed.

β-carboline-induced seizures in mice: Genetic analysis

Abstract The inbred mouse strains BALB/cBy (C) and C57BL/6By (B6) differed significantly in their susceptibility to seizures induced by the benzodiazepine inverse agonist methyl β-carboline-3-carboxylate (β-CCM). Following a 5 mg/kg injection of β-CCM, 74% of C (n = 35) and 13% of B6 (n = 40) mice exhibited a convulsion. No sex difference was found. Analysis of the reciprocal F1s failed to show either maternal environmental and/or heterosomal effects. A genetic analysis of the strain difference in susceptibility to β-CCM-induced seizures using recombinant inbred strains (RIS)_was performed. The strain distribution for the RIS showed a two group partition. Statistical analysis showed that, although a one-segregating-unit model could not be rejected to explain the strain difference in β-CCM-induced seizures, some of the evidence weakened the one-segregating-unit hypothesis.

Genetic selection of mouse lines differing in sensitivity to a benzodiazepine receptor inverse agonist

Mice were selectively bred according to their sensitivity or their resistance to the convulsive effects of a 4-mg/kg dose of methyl beta-carboline-3-carboxylate (beta-CCM), a benzodiazepine (BZ) receptor inverse agonist. The selection proved to be easy, with a clear separation of the two lines, convulsing with short latencies or resistant, already at the first generation of selection. Selection of a third line of animals convulsing with long latencies did not succeed. 3H-Ro 15-1788 binding analysis provided evidence for a strong decrease in Bmax in the resistant line.