Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0036341 (schizophrenia)
 60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Currently prescribed antipsychotics attenuate the positive symptoms of schizophrenia but fail or only mildly improve negative symptoms. The present study aimed to establish an animal model of negative symptoms by examining the effects of the NMDA receptor antagonist MK-801 on sucrose preference. We sought to validate the model by examining the effects of clozapine and D-serine, for which there are positive clinical data regarding their effects on negative symptoms, and haloperidol which is clinically ineffective. We extended our analysis by examining CDPPB, an mGlu5 receptor positive allosteric modulator. Acute MK-801 produced effects indicative of a shift in the hedonic experience of sucrose not confounded by disruptions in motor abilities or taste as revealed by: 1) a decrease in sucrose intake at low concentrations (0.8% or 1.2%), but no effect on water, 2) an increase in consumption for higher (7%) sucrose concentrations, reflecting a shift to the right in the concentration-consumption curve, and 3) no effect on quinine intake. Sub-chronic clozapine and acute d-serine attenuated the MK-801-induced deficit in 1.2% sucrose consumption, whereas sub-chronic haloperidol (0.02 mg/kg) did not. Finally, acute treatment with CDPPB also attenuated this deficit. These data suggest that this model may be useful for identifying novel agents that improve negative symptoms, and that compounds which enhance NMDA receptor function, such as mGlu5 receptor PAMs, may have clinical utility in this regard.
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PMID:MK-801 produces a deficit in sucrose preference that is reversed by clozapine, D-serine, and the metabotropic glutamate 5 receptor positive allosteric modulator CDPPB: relevance to negative symptoms associated with schizophrenia? 2012 52

Adenosine-dopamine interactions in the central nervous system (CNS) have been studied for many years in view of their relevance for disorders of the CNS and their treatments. The discovery of adenosine and dopamine receptor containing receptor mosaics (RM, higher-order receptor heteromers) in the striatum opened up a new understanding of these interactions. Initial findings indicated the existence of A(2A)R-D(2)R heterodimers and A(1)R-D(1)R heterodimers in the striatum that were followed by indications for the existence of striatal A(2A)R-D(3)R and A(2A)R-D(4)R heterodimers. Of particular interest was the demonstration that antagonistic allosteric A(2A)-D(2) and A(1)-D(1) receptor-receptor interactions take place in striatal A(2A)R-D(2)R and A(1)R-D(1)R heteromers. As a consequence, additional characterization of these heterodimers led to new aspects on the pathophysiology of Parkinson's disease (PD), schizophrenia, drug addiction, and l-DOPA-induced dyskinesias relevant for their treatments. In fact, A(2A)R antagonists were introduced in the symptomatic treatment of PD in view of the discovery of the antagonistic A(2A)R-D(2)R interaction in the dorsal striatum that leads to reduced D(2)R recognition and G(i/o) coupling in striato-pallidal GABAergic neurons. In recent years, indications have been obtained that A(2A)R-D(2)R and A(1)R-D(1)R heteromers do not exist as heterodimers, rather as RM. In fact, A(2A)-CB(1)-D(2) RM and A(2A)-D(2)-mGlu(5) RM have been discovered using a sequential BRET-FRET technique and by using the BRET technique in combination with bimolecular fluorescence complementation. Thus, other pathogenic mechanisms beside the well-known alterations in the release and/or decoding of dopamine in the basal ganglia and limbic system are involved in PD, schizophrenia and drug addiction. In fact, alterations in the stoichiometry and/or topology of A(2A)-CB(1)-D(2) and A(2A)-D(2)-mGlu5 RM may play a role. Thus, the integrative receptor-receptor interactions in these RM give novel aspects on the pathophysiology and treatment strategies, based on combined treatments, for PD, schizophrenia, and drug addiction.
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PMID:Adenosine-dopamine interactions in the pathophysiology and treatment of CNS disorders. 2034 70

The manipulation of glutamate neurotransmission could represent a potential strategy for the pharmacotherapy of schizophrenic symptoms. Preclinical studies suggest that two subtypes of metabotropic glutamate (mGlu) receptors such as mGlu2/3 and mGlu5 receptors have the potential to ameliorate deficits in schizophrenia. In our study we evaluated the role of a non-specific mGlu receptor agonist ((1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid; 1S,3R-ACPD), mGlu5 receptor agonist or positive modulators ((RS)-2-Chloro-5-hydroxyphenylglycine;CHPG; [(3-Fluoro-phenyl)methylene]hydrazone-3-fluorobenzaldehyde; DFB; 3-Cyano-N-(1,3-diphenyl-1H-pyrazol-5-yl)benzamide; CDPPB) and a mGlu2/3 receptor agonist (2,2,2-Trifluoro-N-[4-(2-methoxyphenoxy)phenyl]-N-(3-pyrdinylmethyl)ethanesulfonamide hydrochloride; LY-487379) on performance in a cognitive task (Active Allothetic Place Avoidance) after sub-chronic administration of 5R,10S)-(+)-5-methyl-10,11-dihydro-5H-dibenzo(a,d)-cyclo-hepten-5,10-imine; MK-801 . The Active Allothetic Place Avoidance task is suitable for assessing the executive function and attention of animals and was previously validated for testing the effect of anti-psychotics. Application of the mGlu2/3 receptor agonist had no effect on cognitive impairment induced by MK-801. However, the mGlu5 receptor agonists ameliorated cognitive impairment induced by MK-801 without affecting locomotion. In conclusion, the mGlu5 receptor agonists could be effective in the treatment of cognitive deficits in patients with schizophrenia. However, the pro-cognitive effect of the agonist of mGlu2/3 receptors was not demonstrated in the present study.
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PMID:The difference in effect of mGlu2/3 and mGlu5 receptor agonists on cognitive impairment induced by MK-801. 2037 Dec 26

The glutamatergic hypofunction hypothesis of schizophrenia has led to the development of novel therapeutic strategies modulating NMDA receptor function. One of these strategies targets the activation of the metabotropic glutamate receptor 5 (mGlu5 receptor) using positive allosteric modulators (PAMs). Our goal was to evaluate the potential for repeated administration of the mGlu5 receptor PAM, CDPPB (3-cyano-N-(1,3-diphenyl-1H-pyrazol-5-yl)benzamide) (30 mg/kg) to induce tolerance to the anti-psychotic like effect using the amphetamine-induced hyperlocomotion rat model, and to produce receptor desensitization in mGlu5 receptor-enriched brain regions. CDPPB dose dependently reduced the locomotor response to amphetamine when administered acutely, and the same effect was observed following 7-day pre-treatment regime. In addition, 7-day dosing of CDPPB did not affect mGlu5 receptor density in the striatum, nor did it change mGlu5 receptor PAM-induced phosphorylation of NMDA, GluN1 and GluN2b, receptor subunits in striatum compared to the levels measured acutely. In contrast, in the frontal cortex, repeated administration of CDPPB decreased mGlu5 receptor density and resulted in a loss of its ability to increase GluN1 and GluN2b levels. Consistent with a reduction of cortical mGlu5 receptor density and phosphorylation, CDPPB (30 mg/kg) significantly affected sleep architecture as determined by cortical EEG at day one however by the seventh day of dosing all sleep changes were absent. Together these results suggest that the development of tolerance induced by the repeated treatment with the mGlu5 receptor PAM, CDPPB, may depend not only on the system being measured (sleep architecture vs psychostimulant induced hyperactivity), but also on the brain region involved with frontal cortex being a more susceptible region to receptor desensitization and internalization than striatum.
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PMID:Differential effects of the mGluR5 positive allosteric modulator CDPPB in the cortex and striatum following repeated administration. 2111 44

Based on the glutamate hypothesis of schizophrenia, extensive studies to develop drugs acting on glutamate receptors have been conducted. Among glutamate receptors, metabotropic glutamate (mGlu) receptors, all of which are GPCRs, have 8 subtypes, and are involved in regulation of glutamate transmissions. Of these, much attention has been paid to mGlu2/3 receptors and mGlu5 receptor. mGlu2/3 receptor agonists improve behavioral abnormalities such as locomotor hyperactivity and cognitive deficits induced by NMDA receptor antagonists. In addition, mGlu2/3 receptor agonists attenuate glutamate overflow in the prefrontal cortex, and regulate dopamine release and 5-HT2A receptor activity, all of which have been presumed to be involved in antipsychotic actions of mGlu2/3 receptor agonists. Recently, LY2140023, an mGlu2/3 receptor agonists developed by Eli Lilly, has been demonstrated to be effective for the treatment of positive and negative symptoms of schizophrenic patients in a phase II study, while it did not cause unwanted side effects often observed with current antipsychotic medications. Moreover, a series of experiments has demonstrated that mGlu5 receptor potentiators exert antipsychotic effects in animal models of schizophrenia. Therefore, mGlu2/3 receptor and mGlu5 receptor may provide exciting targets for the development of novel medications for schizophrenia.
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PMID:[Targeting metabotropic glutamate receptors to develop novel antipsychotics]. 2122 17

Administration of noncompetitive N-methyl-D-aspartate receptor (NMDAR) antagonist phencyclidine to rats on postnatal days 7, 9, and 11 induces apoptosis in prefrontal cortex and hippocampus. In adulthood, these animals display cognitive impairment of working memory, reversal learning and attention that are similar to clinical observations in schizophrenia. In this study, expression of different NMDAR subunits, the postsynaptic mGlu5 receptor and the connecting NMDAR-mGluR5 intracellular postsynaptic density proteins have been measured in adult rats after treatment with phencyclidine on postnatal days 7, 9, and 11. We found that these animals exhibited elevated expression in medial prefrontal cortex of the NR2A and NR2B NMDA receptor subunits in adulthood. These results indicate how behavioral changes in a developmental model for cognitive dysfunction involve changes to specific molecular subsets of the cortical glutamate system.
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PMID:Phencyclidine treatment increases NR2A and NR2B N-methyl-D-aspartate receptor subunit expression in rats. 2201 41

Based on the glutamatergic hypothesis of schizophrenia we assessed the effects of a novel mGlu5 positive allosteric modulator, LSN2463359 [N-(1-methylethyl)-5-(pyridin-4-ylethynyl)pyridine-2-carboxamide] on deficits in cognitive flexibility in two distinct rodent models of schizophrenia, the neurodevelopmental MAM E17 model and the acute PCP model. Cognitive flexibility was measured with the intra-dimensional and extra-dimensional set-shifting and reversal learning digging paradigm. Regional effects of MAM on the expression of parvalbumin-positive cells (PV) and mGlu5 receptors were also examined, to further characterize the model. Results showed that LSN2463359 selectively attenuated reversal learning deficits in the MAM but not acute PCP model. Whilst both models led to deficits in reversal learning and extra-dimensional set-shifting, the reversal impairments were qualitatively distinct, with MAM increasing perseverative responding, whereas the PCP deficit was mainly due to the inability of rats to maintain reinforced choice behavior. Reduction of PV and mGlu5 expression was found in the MAM model in several regions of importance in schizophrenia, such as the orbitofrontal and medial prefrontal cortex, which also mediate reversal learning and extra-dimensional set-shifting. The present findings confirm that the positive modulation of mGlu5 receptors may have beneficial effects in the treatment of certain aspects of cognitive impairment associated with schizophrenia. This study also illustrates the importance of studying putative cognitive enhancing drug effects in a number of models which may have implications for the future development of the compound.
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PMID:Selective remediation of reversal learning deficits in the neurodevelopmental MAM model of schizophrenia by a novel mGlu5 positive allosteric modulator. 2212 80

The metabotropic glutamate 1 receptor (mGlu1) is an important protein in the regulation of glutamate transmission in the brain, and believed to be involved in disorders such as ischemia, epilepsy, neuropathic pain, anxiety, and schizophrenia. The goal of this study was to evaluate two selective mGlu1 antagonists [(11) C]3 and [(18) F]4 as potential PET radioligands for the in vivo imaging of the mGlu1 receptor. Biodistribution studies in rats indicated high uptake of [(11) C]3 and [(18) F]4 in the brain. The highest activity level was found in the cerebellum, followed by striatum, hippocampus, frontal cortex, and medulla, in a pattern consistent with the distribution of mGlu1 receptor in rat. At 30 min postinjection, the activity ratio of cerebellum to medulla was 4.5 for [(11) C]3, indicating a high degree of specific binding, while specific binding was lower for [(18) F]4 (cerebellum to medulla activity ratio of 2.0). Moreover, binding of the radioligands [(11) C]3 and [(18) F]4 in mGlu1 receptor-rich region such as cerebellum was blocked by pretreatment of the rats with their respective unlabeled compound or the selective mGlu1 antagonist (compound 5, 2 mg/kg each), but not by the selective mGlu2 antagonist LY341495, or the selective mGlu5 antagonist MPEP (2 mg/kg), thus indicating the binding specificity and selectivity of [(11) C]3 and [(18) F]4 to the mGlu1 receptor. However, in imaging experiments in baboons [(11) C]3 displayed a small specific binding signal only in the cerebellum, while the specific binding of [(18) F]4 was difficult to detect. Species differences in receptor density and affinity of the radioligands in large part account for the differences in the behavior of [(11) C]3 and [(18) F]4 in rats and baboons. Radioligands with higher affinity and/or lower lipophilicity are needed to successfully image the mGlu1 receptor in humans.
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PMID:Synthesis and characterization of two PET radioligands for the metabotropic glutamate 1 (mGlu1) receptor. 2292 3

Treatment options for schizophrenia that address all symptom categories (positive, negative, and cognitive) are lacking. Novel compounds that regulate signaling by the major excitatory neurotransmitter in the brain, glutamate, are emerging as a novel approach for the treatment of this disorder. Currently available medications ameliorate positive symptoms but do not have efficacy in reducing negative symptoms or cognitive disturbances. It is possible that agents that target glutamatergic signaling in the CNS could have efficacy in reducing all major symptom clusters, providing a more comprehensive treatment strategy, and also avoiding some of the adverse effects that are seen with currently available treatments. Three major approaches for targeting glutamate signaling are now advancing in preclinical and clinical development. First are inhibitors for a transporter for glycine termed GlyT1. Glycine is a co-agonist with glutamate for a specific subtype of glutamate receptor, termed the NMDA receptor, which is thought to be critically involved in brain circuits that are disrupted in schizophrenia patients. Inhibiting GlyT1 increases glycine levels and can selectively increase NMDA receptor signaling. Another promising approach is to increase activity of another family of glutamate receptors, termed metabotropic glutamate receptors (mGlus), which play important modulatory roles in brain circuits that are thought to be disrupted in schizophrenia patients. Activation of the group I (mGlu5) and the group II (mGlu2 and mGlu3) mGlus is hypothesized to normalize the disruption of aberrant signaling in these circuits. Novel drug-like molecules that increase activity of these receptors have robust efficacy in animal models that predict efficacy in treatment of schizophrenia. Early clinical studies provide some support for potential utility of these targets in reducing symptoms in schizophrenia patients. Clinical studies that are underway will provide further insights into the potential utility of these compounds in the treatment of multiple symptom domains in schizophrenia patients.
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PMID:Emerging approaches for treatment of schizophrenia: modulation of glutamatergic signaling. 2320 65

Previous work has suggested that activation of mGlu5 receptor augments NMDA receptor function and thereby may constitute a rational approach addressing glutamate hypofunction in schizophrenia and a target for novel antipsychotic drug development. Here, we report the in vitro activity, in vivo efficacy and safety profile of 5PAM523 (4-Fluorophenyl){(2R,5S)-5-[5-(5-fluoropyridin-2-yl)-1,2,4-oxadiazol-3-yl]-2-methylpiperidin-1-yl}methanone), a structurally novel positive allosteric modulator selective of mGlu5. In cells expressing human mGlu5 receptor, 5PAM523 potentiated threshold responses to glutamate in fluorometric calcium assays, but does not have any intrinsic agonist activity. 5PAM523 acts as an allosteric modulator as suggested by the binding studies showing that 5PAM523 did not displace the binding of the orthosteric ligand quisqualic acid, but did partially compete with the negative allosteric modulator, MPyEP. In vivo, 5PAM523 reversed amphetamine-induced locomotor activity in rats. Therefore, both the in vitro and in vivo data demonstrate that 5PAM523 acts as a selective mGlu5 PAM and exhibits anti-psychotic like activity. To study the potential for adverse effects and particularly neurotoxicity, brain histopathological exams were performed in rats treated for 4 days with 5PAM523 or vehicle. The brain exam revealed moderate to severe neuronal necrosis in the rats treated with the doses of 30 and 50 mg/kg, particularly in the auditory cortex and hippocampus. To investigate whether this neurotoxicity is mechanism specific to 5PAM523, similar safety studies were carried out with three other structurally distinct selective mGlu5 PAMs. Results revealed a comparable pattern of neuronal cell death. Finally, 5PAM523 was tested in mGlu5 knock-out (KO) and wild type (WT) mice. mGlu5 WT mice treated with 5PAM523 for 4 days at 100 mg/kg presented significant neuronal death in the auditory cortex and hippocampus. Conversely, mGlu5 KO mice did not show any neuronal loss by histopathology, suggesting that enhancement of mGlu5 function is responsible for the toxicity of 5PAM523. This study reveals for the first time that augmentation of mGlu5 function with selective allosteric modulators results in neurotoxicity.
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PMID:Mechanism based neurotoxicity of mGlu5 positive allosteric modulators--development challenges for a promising novel antipsychotic target. 2329 36


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