Brexpiprazole piperazin-1-yl]butoxy}quinolin-2(1H)-one) is a novel drug candidate in clinical development for psychiatric disorders with high affinity for serotonin, dopamine, and noradrenaline receptors. In particular, it bound with high affinity (K i , 1 nM) to human serotonin 1A (h5-HT 1A )-, h5-HT 2A -, long form of human D 2 (hD 2L )-, ha 1B -, and ha 2C -adrenergic receptors. It displayed partial agonism at h5-HT 1A and hD 2 receptors in cloned receptor systems and potent antagonism of h5-HT 2A receptors and ha 1B/2C -adrenoceptors. Brexpiprazole also had affinity (K i , 5 nM) for hD 3 -, h5-HT 2B -, h5-HT 7 -, ha 1A -, and ha 1D -adrenergic receptors, moderate affinity for hH 1 (K i 5 19 nM), and low affinity for hM 1 receptors (K i . 1000 nM). Brexpiprazole potently bound to rat 5-HT 2A and D 2 receptors in vivo, and ex vivo binding studies further confirmed high 5-HT 1A receptor binding potency. Brexpiprazole inhibited DOI (2,5-dimethoxy-4-iodoamphetamine)-induced head twitches in rats, suggestive of 5-HT 2A antagonism. Furthermore, in vivo D 2 partial agonist activity of brexpiprazole was confirmed by its inhibitory effect on reserpine-induced DOPA accumulation in rats. In rat microdialysis studies, brexpiprazole slightly reduced extracellular dopamine in nucleus accumbens but not in prefrontal cortex, whereas moderate increases of the dopamine metabolites, homovanillic acid and DOPAC (3,4-dihydroxy-phenyl-acetic acid), in these areas also suggested in vivo D 2 partial agonist activity. In particular, based on a lower intrinsic activity at D 2 receptors and higher binding affinities for 5-HT 1A/2A receptors than aripiprazole, brexpiprazole would have a favorable antipsychotic potential without D 2 receptor agonistand antagonist-related adverse effects. In conclusion, brexpiprazole is a serotonin-dopamine activity modulator with a unique pharmacology, which may offer novel treatment options across a broad spectrum of central nervous system disorders.
The synthesis and structure-activity relationship of a novel series of compounds with combined effects on 5-HT(3A) and 5-HT(1A) receptors and on the serotonin (5-HT) transporter (SERT) are described. Compound 5m (Lu AA21004) was the lead compound, displaying high affinity for recombinant human 5-HT(1A) (K(i) = 15 nM), 5-HT(1B) (K(i) = 33 nM), 5-HT(3A) (K(i) = 3.7 nM), 5-HT(7) (K(i) = 19 nM), and noradrenergic β(1) (K(i) = 46 nM) receptors, and SERT (K(i) = 1.6 nM). Compound 5m displayed antagonistic properties at 5-HT(3A) and 5-HT(7) receptors, partial agonist properties at 5-HT(1B) receptors, agonistic properties at 5-HT(1A) receptors, and potent inhibition of SERT. In conscious rats, 5m significantly increased extracellular 5-HT levels in the brain after acute and 3 days of treatment. Following the 3-day treatment (5 or 10 (mg/kg)/day) SERT occupancies were only 43% and 57%, respectively. These characteristics indicate that 5m is a novel multimodal serotonergic compound, and 5m is currently in clinical development for major depressive disorder.
1-[2-(2,4-Dimethylphenyl-sulfanyl)-phenyl]-piperazine (Lu AA21004) is a human (h) serotonin (5-HT) 3A receptor antagonist (K i ϭ 3.7 nM), h5-HT 7 receptor antagonist (K i ϭ 19 nM), h5-HT 1B receptor partial agonist (K i ϭ 33 nM), h5-HT 1A receptor agonist (K i ϭ 15 nM), and a human 5-HT transporter (SERT) inhibitor (K i ϭ 1.6 nM) (J Med Chem 54: 3206 -3221, 2011). Here, we confirm that Lu AA21004 is a partial h5-HT 1B receptor agonist [EC 50 ϭ 460 nM, intrinsic activity ϭ 22%] using a whole-cell cAMP-based assay and demonstrate that Lu AA21004 is a rat (r) 5-HT 7 receptor antagonist (K i ϭ 200 nM and IC 50 ϭ 2080 nM). In vivo, Lu AA21004 occupies the r5-HT 1B receptor and rSERT (ED 50 ϭ 3.2 and 0.4 mg/kg, respectively) after subcutaneous administration and is a 5-HT 3 receptor antagonist in the Bezold-Jarisch reflex assay (ED 50 ϭ 0.11 mg/kg s.c.). In rat microdialysis experiments, Lu AA21004 (2.5-10.0 mg/kg s.c.) increased extracellular 5-HT, dopamine, and noradrenaline in the medial prefrontal cortex and ventral hippocampus. Lu AA21004 (5 mg/kg per day for 3 days; minipump subcutaneously), corresponding to 41% rSERT occupancy, significantly increased extracellular 5-HT in the ventral hippocampus. Furthermore, the 5-HT 3 receptor antagonist, ondansetron, potentiated the increase in extracellular levels of 5-HT induced by citalopram. Lu AA21004 has antidepressant-and anxiolytic-like effects in the rat forced swim (Flinders Sensitive Line) and social interaction and conditioned fear tests (minimal effective doses: 7.8, 2.0, and 3.9 mg/kg). In conclusion, Lu AA21004 mediates its pharmacological effects via two pharmacological modalities: SERT inhibition and 5-HT receptor modulation. In vivo, this results in enhanced release of several neurotransmitters and antidepressant-and anxiolytic-like profiles at doses for which targets in addition to the SERT are occupied. The multimodal activity profile of Lu AA21004 is distinct from that of current antidepressants.
Gestational disruption of neurodevelopment has been proposed to lead to pathophysiological changes similar to those underlying schizophrenia. We induced such disruption by treating pregnant rat dams with methylazoxymethanol acetate (MAM) on gestational day 17 (GD17). Total brain size and that of the prefrontal cortex and hippocampus were reduced in adult rats exposed prenatally to MAM. When locomotor activity was assessed in an open field, MAM-exposed rats were hyper-responsive to a mild stress and to amphetamine (2 mg/kg, s.c.). They also engaged in less social interaction than controls. We studied, by microdialysis, the effect of amphetamine on extracellular dopamine in the nucleus accumbens and the medial prefrontal cortex of freely moving control and MAM-exposed rats. Amphetamine (2 mg/kg, s.c.) induced an increase in dopamine release that was larger in the nucleus accumbens of MAM-exposed rats than in controls, whereas no difference was seen in the medial prefrontal cortex. In controls, amphetamine infused into the medial prefrontal cortex (50 mM) led to a slight decrease in extracellular dopamine in the nucleus accumbens. This effect was absent in MAMexposed rats, where a transient increase in nucleus accumbens dopamine levels was seen after amphetamine infusion. These results show that the late gestational disruption of neurogenesis in the rat leads to behavioral changes that mimic positive and negative schizophrenia symptoms, and also to a dysregulation of subcortical dopamine neurotransmission. This study contributes to the evaluation of the validity of the prenatal MAM GD17 treatment in rats as an animal model for schizophrenia.
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