The trace amine-associated receptor 1 (TAAR1), activated by endogenous metabolites of amino acids like the trace amines p-tyramine and β-phenylethylamine, has proven to be an important modulator of the dopaminergic system and is considered a promising target for the treatment of neuropsychiatric disorders. To decipher the brain functions of TAAR1, a selective TAAR1 agonist, RO5166017, was engineered. RO5166017 showed high affinity and potent functional activity at mouse, rat, cynomolgus monkey, and human TAAR1 stably expressed in HEK293 cells as well as high selectivity vs. other targets. In mouse brain slices, RO5166017 inhibited the firing frequency of dopaminergic and serotonergic neurons in regions where Taar1 is expressed (i.e., the ventral tegmental area and dorsal raphe nucleus, respectively). In contrast, RO5166017 did not change the firing frequency of noradrenergic neurons in the locus coeruleus, an area devoid of Taar1 expression. Furthermore, modulation of TAAR1 activity altered the desensitization rate and agonist potency at 5-HT 1A receptors in the dorsal raphe, suggesting that TAAR1 modulates not only dopaminergic but also serotonergic neurotransmission. In WT but not Taar1 −/− mice, RO5166017 prevented stress-induced hyperthermia and blocked dopamine-dependent hyperlocomotion in cocaine-treated and dopamine transporter knockout mice as well as hyperactivity induced by an NMDA antagonist. These results tie TAAR1 to the control of monoamine-driven behaviors and suggest anxiolyticand antipsychotic-like properties for agonists such as RO5166017, opening treatment opportunities for psychiatric disorders.drug discovery | serotonin | depression | schizophrenia | anxiety
DSP-4 treatment had an 'anxiolytic' effect in group-reared rats in the elevated plus maze. In the water maze, isolation rearing enhanced retention of spatial information, an effect normalised by NA depletion. The results demonstrate the importance of noradrenergic function in the regulation of responsiveness to environmental cues.
Apomorphine-induced disruption of prepulse inhibition that can be normalised by systemic haloperidol is insensitive to clozapine pretreatment Abstract Rationale: Prepulse inhibition (PPI) of startle refers to the phenomenon in which a weak prepulse attenuates the startle response to a succeeding intense stimulus. PPI can be disrupted by systemic apomorphine in animals, and reduced PPI has been consistently reported in schizophrenia patients. The ability of the atypical antipsychotic clozapine to reverse apomorphineinduced PPI deficit has been demonstrated in the rat, buthas not yet been tested in the mouse. The present study was designed to fill this gap. Objective and results: We investigated the efficacy of clozapine in reversing apomorphine-induced (2.0 or 2.5 mg/kg, SC) PPI deficit in C57BL6 mice. Clozapine failed to restore PPI disruption in apomorphine-treated mice in two independent laboratories across two dose ranges (1-3 mg/kg, IP, or 3-30 mg/kg, PO), whereas the typical antipsychotic haloperidol (1 mg/kg,IP) completely normalised PPI performance. Conclusions: Unlike the rat, apomorphine-induced PPI disruption in mice might be instrumental in distinguishing between typical and atypical antipsychotic drugs. This also lends further support to the suggestion that the neuropharmacology of PPI is not identical in the two rodent species.
Introduction
The ability to be fast alert and to interact with the environment without motor impairment upon waking up, is a critical feature of natural sleep. DORAs represent a new class of insomnia medications that specifically inhibit the wake-promoting effects of orexin neuropeptides. Daridorexant is a potent and selective DORA under late stage development for the treatment of insomnia. Here, we assessed the impact of sleep-promoting doses of daridorexant on rats’ and dogs’ behaviour upon forced awakening. Zolpidem (a positive GABAA receptor modulator) was used as active comparator in rats because of its known negative impact on motor functions.
Methods
Rats were woken up at different time points after oral administration of daridorexant (10, 30, 100 mg/kg) or zolpidem (30, 100 mg/kg) during their inactive phase, and repeatedly subjected to two motor tasks: 1) the rotating rod test (lasting 120 sec, at each time point) assessing gross motor skills and coordination, and 2) the forepaw grip strength test assessing fine motor skills and muscle strength. Dogs were presented with food as an external, salient stimulus, three hours after administration of daridorexant in gelatin capsules (10, 30 or 90 mg/dog) during their active phase. Behaviour and signs of muscle weakness, after having woken up, were assessed by manual inspection of video recordings and concomitant electroencephalogram/electromyogram recordings.
Results
In both the rotarod and grip tests, daridorexant treatment had no effect on motor behavior at any dose or time point tested, while zolpidem significantly reduced the time spent on the rotarod and the grip strength in a dose and time-dependent manner (N=12/group; p<0.001;) (e.g. at 30 min post-dose, time spent on the rotarod was 84, 79–89 and 10–19 sec for vehicle, daridorexant and zolpidem, respectively). Dogs treated with daridorexant were able to wake up easily upon food presentation. They behaved and ate normally and did not show any signs of muscle weakness.
Conclusion
The type of sleep promoted by daridorexant is surmountable in rats and dogs and similar to physiological sleep. It allows animals to easily wake up, to behave normally without motor impairment and to respond efficiently to the environmental conditions.
Support (if any)
Funded by Idorsia Pharmaceuticals Ltd
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