Victoria Mulligan scite author profile

The orphan G-protein-coupled receptor GPR139 is highly expressed in the habenula, a small brain nucleus that has been linked to depression, schizophrenia (SCZ), and substance-use disorder. High-throughput screening and a medicinal chemistry structure−activity relationship strategy identified a novel series of potent and selective benzotriazinone-based GPR139 agonists. Herein, we describe the chemistry optimization that led to the discovery and validation of multiple potent and selective in vivo GPR139 agonist tool compounds, including our clinical candidate TAK-041, also known as NBI-1065846 (compound 56). The pharmacological characterization of these GPR139 agonists in vivo demonstrated GPR139-agonist-dependent modulation of habenula cell activity and revealed consistent in vivo efficacy to rescue social interaction deficits in the BALB/c mouse strain. The clinical GPR139 agonist TAK-041 is being explored as a novel drug to treat negative symptoms in SCZ.

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S180. The Selective Gpr139 Agonist Tak-041 Reverses Anhedonia and Social Interaction Deficits in Rodent Models Related to Negative Symptoms in Schizophrenia

Schiffer

Atienza

Reichard

et al. 2020

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Background Negative symptoms in schizophrenia (SCZ) are poorly treated and interfere with the function of patients. Studies focusing on structural and functional imaging and non-invasive electrophysiology implicate perturbations of the frontocortico-temporal circuits and disruption of cortico-striatal loops to negative symptoms in SCZ. GPR139 is an orphan GPCR that is specifically expressed in the CNS and enriched in the habenula, a brain structure involved in reward and motivation. Structural and functional alterations of the habenula have been found in SCZ patients, who show deficits in feedback processing and lack habenula activation in response to negative outcomes. Rodent experiments demonstrate the involvement of direct projection from the cortex to the habenula controlling social behavior. Alteration in habenula activity have been correlated with depression, and normalization of aberrant habenula activity has been proposed as therapeutic strategy to reverse anhedonia. Building on data previously reported at SIRS2018, we further explored modulation of GPR139 receptors and habenula circuitry in vivo as a novel mechanism to treat negative symptoms in SCZ. Methods Animals were submitted to an unpredictable chronic mild stress (uCMS) protocol, an animal model of depression that produces deficits in several behavioral domains affected in depressed patients. The three-chamber (Crawley’s) paradigm has been used to study social interaction in rodents. Induction of the immediate early gene c-fos expression was studied as marker for habenula neuron activation in vivo. Dopamine release in the nucleus accumbens (NAc) was studied by standard in vivo microdialysis in freely moving rats. Results The selective GPR139 agonist TAK-041 increased cFOS expression in the habenula in wild type mice, but not in GPR139 knock out mice. No desensitization of cFOS in the habenula was observed after chronic dosing of TAK-041. Microdialysis studies showed that TAK-041 reduced amphetamine- and nicotine-induced dopamine release in the NAc in rats. TAK-041 dosed acutely and chronically reversed anhedonia caused by uCMS in rats. TAK-041 also reversed anxiety related behavior assessed in the novelty suppressed feeding test and depressive-like behavior in the forced swim test in the uCMS model. uCMS-exposed animals develop a disrupted circadian regulation of corticosterone secretion, which was also normalized by TAK-041 treatment. Furthermore, TAK-041 reversed the uCMS-induced atrophy in the basal dendrites of pyramidal neurons in the hippocampus and the uCMS-induced hypertrophy of medium-spiny neurons in the NAc. These results suggest a potential benefit of TAK-041 in the treatment of anhedonia and possibly depression. TAK-041 also completely reversed social interaction (SI) deficits in the maternal immune activation poly-I:C model of SCZ, the subchronic PCP-SI model and in Balb/C and BTBR mice. Discussion The GPR139 agonist TAK-041 is proposed as a modulator of habenula circuitry to treat negative symptoms in SCZ based on efficacy in reversing anhedonia and social interaction deficits in multiple rodent models related to negative symptoms in SCZ. *Employed by Takeda when the study was done.

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S39. Gpr139 an Ophan GPCR Affecting Negative Domains of Schizophrenia

Atienza

Reichard

Mulligan

et al. 2018

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BackgroundIndividuals with schizophrenia fail to appropriately use negative feedback to guide learning. These learning deficits are thought to arise from abnormalities in midbrain dopamine activity. The habenula is a well conserved paired structure that sits in the midline, adjacent to the third ventricle, and dorsal and posterior to the thalamus. Classic studies have shown that it is part of the reward pathway and functions with dopamine neurons in the ventral tegmental area (VTA) to mediate reward related signals, specifically aversive and negative stimulus (Hikosaka, 2010). Several studies point to pathology in the habenula as contributing to schizophrenia (Sandyk, 1992; Caputo et al., 1998; Shepard et al., 2006). Despite the many studies on the habenula, the precise function of the habenula remains unclear. Here we describe functional consequences of regulation of GPR139 an orphan GPCR that is specifically expressed in the CNS and enriched in the habenula (Matsuo et al., 2005) in mouse models of domain of schizophrenia.MethodsSpecific expression of mouse GPR139 in the habenula was evaluated using bacterial artificial chromosome translating ribosome affinity purification (bacTRAP) and confirmed by immunohistochemistry. GPR139-/- mice were generated by removal of a 736bp region encoding the seven transmembrane domain (7TM) domain. Knockout animals were maintained inbred on a 129/SvEv background and evaluated in behavioral models that reflect aspects of negative symptoms. High throughput screen (HTS) for small molecules was performed. We expressed full length GPR139 into CHO cells and screened a 600K library using a calcium assay to identify small molecule agonist. Hits were identified and physical properties optimized to produce a molecule suitable for in vivo evaluation. GPR139 agonist was testedin vivo in social interaction in Poly(I:C) and cognitive test in subchronic PCP, models of schizophrenia.ResultsUsing bacTRAP we observed enriched expression of GPR139 in substance P positive- cells of the medial habenula. This expression was confirmed with immunohistochemistry. To determine if GPR139 regulates the known role of the habenula in learning, motivation, and social behaviour, GPR139 -/- animals were generated and phenotyped. These animals appeared normal and performed comparably to wild-type animals in a range of standard tasks. However, they were significantly impaired in models that reflect aspects of negative symptoms such as progressive ratio (Killeen et al., 2009; Heath et al., 2016), a measure of motivation and nest-building (Pedersen et al., 2014; Nakajima et al., 2013), a model of self-neglect. Furthermore, these animals showed deficits in novel object recognition model of working memory (Antunes and Biala, 2012). The small molecule agonist was observed to reverse deficits in models of schizophrenia including cognition in a subchronic PCP induced attentional set-shifting paradigm (Birrell and Brown, 2000) and social interaction in the Poly(I:C) maternal model (Meyer et al., 2008; Bitanihirwe...

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