The NADPH Oxidase NOX2 Controls Glutamate Release: A Novel Mechanism Involved in Psychosis-Like Ketamine Responses

Sorce, Silvia; Schiavone, Stefania; Tucci, Paolo; Colaianna, Marilena; Jaquet, Vincent; Cuomo, V.; Dubois‐Dauphin, Michel; Trabace, Luigia; Krause, Karl Heinz

doi:10.1523/jneurosci.1491-10.2010

Cited by 85 publications

(100 citation statements)

References 63 publications

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“…The increase in GSH in this study, suggests enhanced glutamate uptake by the astrocytes, possibly leading to increase in the surface expression of NMDA receptor and glutamate binding for the modulation of dopamine neurotransmission [50]. Therefore, the positive effects of DOX on ketamine-induced schizophrenia-like behavioral phenotypes, further point to mechanisms of action involving antioxidant activities, demonstrated herein and the inherent anti-inflammatory properties [12] [44].…”

Section: Discussionsupporting

confidence: 52%

“…Oxidative stress increased glutamate levels can inhibit cystine uptake by the cysteine/glutamate exchange system thereby causing intracellular GSH depletion, and consequently poor NMDA surface expression that results in NMDA hypofunctionality [34]; leading to decrease glutamate-dopamine modulations, that is, at least partly, mediated by decreased GSH signaling [49]. Moreover, Behrens et al [45] and Sorce et al [50] previously reported increase in the level of the pro-inflammatory cytokine, interleukine-6 (IL-6) and superoxide producing enzyme, nicotinamide adenine denucleotide phosphate oxidase-2 (Nox-2) in the brain of rodents following repeated administration of ketamine, respectively. Therefore, the increased GSH concentration observed in this study by doxycycline might be mediated through prevention of microglial oxidative burst and inflammatory response elements, thereby enhancing microglial internalization of cysteine intracellularly [51], and cysteine uptake by the cysteine/glutamate exchange system to increase GSH synthesis [52].…”

Section: Discussionmentioning

confidence: 99%

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Doxycycline Ameliorates Schizophrenia-Like Behaviors in Experimental Models in Mice by Targeting Underlying Oxidative Stress

Ben-Azu¹,

Omogbiya²,

Aderibigbe³

et al. 2016

JBBS

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Current evidences support the inhibition of oxidative and inflammatory signaling mechanisms in the treatment of schizophrenia; as cure for this disease still remains limited. Doxycycline is a tetracycline antibiotic (a minocycline congener) with strong antioxidant and anti-inflammatory properties, and better pharmacokinetic profiles. Preclinical evidence indicates that minocycline possesses antipsychotic properties. This present study was designed to evaluate the effect of doxycycline on schizophrenialike behaviors, as well as biomarkers of oxidative stress in mice brains. Noveltyinduced rearing (NIR) behavior was used to evaluate the tranquilizing effect of doxycycline (25 -200 mg/kg). The acute antipsychotic effects of doxycycline were assessed using apomorphine-induced stereotypy, ketamine-induced stereotypy, hyperlocomotion and enhanced immobility in forced swim test (FST). Catalepsy test was also employed to evaluate the extrapyramidal adverse effect of doxycycline in mice. The chronic antipsychotic effect of doxycycline was evaluated following oral administration of doxycycline in combination with ketamine (100 mg/kg) intraperitoneally for 10 days. Twenty four hours after the last administration, positive (locomotor activity), cognitive (Y-maze) and negative (FST) symptoms were assessed. Thereafter, levels of biomarkers of oxidative stress were evaluated in mice brains. Doxycycline significantly (P < 0.05) decreased NIR, inhibited stereotypy induced by apomorphine and ketamine. Additionally, doxycycline significantly (P < 0.05) prevented ketamineinduced hyperlocomotion, cognitive deficit and reduced enhanced-immobility by ketamine in mice. Furthermore, doxycycline decreased malondialdehyde concentrations in a dose-related manner. Moreover, doxycycline significantly (P < 0.05) prevented the decrease in glutathione, and increased activities of superoxide dismutase and catalase in brain tissues. The results from this study suggest that doxycycline 540ameliorated schizophrenic-like behaviors via mechanisms related to attenuation of oxidative stress in mouse brain.

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Section: Discussionsupporting

confidence: 52%

Section: Discussionmentioning

confidence: 99%

Doxycycline Ameliorates Schizophrenia-Like Behaviors in Experimental Models in Mice by Targeting Underlying Oxidative Stress

Ben-Azu¹,

Omogbiya²,

Aderibigbe³

et al. 2016

JBBS

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“…This increase in NOX2 was accompanied by an increase in synaptosomal NADPHoxidase activity and paralleled a loss of PV + neurons (19). In another study (280), ketamine caused rapid behavioral alterations, release of neurotransmitters, and brain oxidative stress in wild-type mice; whereas NOX2-deficient mice did not display such alterations. Wild-type mice showed decreased expression of subunit 2A of the NMDA receptor after repeated ketamine exposure, which did not occur in NOX2-deficient mice, implicating NOX2 in down-regulation of NMDA receptor subunits.…”

Section: Diebold Et Almentioning

confidence: 88%

“…Neurons from NOX2-deficient mice showed impaired N-methyl-d-aspartate (NMDA) receptor-dependent long term potentiation (139) and also dysregulation of signaling pathways that are essential to proliferation (61). A study using NOX2-deficient mice also suggests that NOX2-derived ROS control release of the neurotransmitter glutamate in response to specific agonists (280). In hematopoietic cells, low oxygen tension in the bone marrow maintains quiescence and stem cell potential.…”

Section: Other Cell Typesmentioning

confidence: 99%

NOX2 As a Target for Drug Development: Indications, Possible Complications, and Progress

Diebold

Smith

Yang

et al. 2015

Antioxidants & Redox Signaling

106

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Significance: NOX2 is important for host defense, and yet is implicated in a large number of diseases in which inflammation plays a role in pathogenesis. These include acute and chronic lung inflammatory diseases, stroke, traumatic brain injury, and neurodegenerative diseases, including Alzheimer's and Parkinson's Diseases. Recent Advances: Recent drug development programs have targeted several NOX isoforms that are implicated in a variety of diseases. The focus has been primarily on NOX4 and NOX1 rather than on NOX2, due, in part, to concerns about possible immunosuppressive side effects. Nevertheless, NOX2 clearly contributes to the pathogenesis of many inflammatory diseases, and its inhibition is predicted to provide a novel therapeutic approach. Critical Issues: Possible side effects that might arise from targeting NOX2 are discussed, including the possibility that such inhibition will contribute to increased infections and/or autoimmune disorders. The state of the field with regard to existing NOX2 inhibitors and targeted development of novel inhibitors is also summarized. Future Directions: NOX2 inhibitors show particular promise for the treatment of inflammatory diseases, both acute and chronic. Theoretical side effects include pro-inflammatory and autoimmune complications and should be considered in any therapeutic program, but in our opinion, available data do not indicate that they are sufficiently likely to eliminate NOX2 as a drug target, particularly when weighed against the seriousness of many NOX2-related indications. Model studies demonstrating efficacy with minimal side effects are needed to encourage future development of NOX2 inhibitors as therapeutic agents. Antioxid. Redox Signal. 23,

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“…13 although ongoing studies will attempt to elucidate the mechanism behind the effect, swiss biotech GenKyoTex S.A. has iP covering multiple naDPh oxidase (nOX) inhibitors that it believes could yield a nOX2 antagonist to treat schizophrenia. the five isoforms of nOX are responsible for generating superoxides and reactive oxygen species (rOs).…”

Section: Box 1 Nox2-driven Schizophreniamentioning

confidence: 99%

Ketamine meets mTOR

Fulmer¹

2010

Science-Business eXchange

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The NADPH Oxidase NOX2 Controls Glutamate Release: A Novel Mechanism Involved in Psychosis-Like Ketamine Responses

Cited by 85 publications

References 63 publications

Doxycycline Ameliorates Schizophrenia-Like Behaviors in Experimental Models in Mice by Targeting Underlying Oxidative Stress

Doxycycline Ameliorates Schizophrenia-Like Behaviors in Experimental Models in Mice by Targeting Underlying Oxidative Stress

NOX2 As a Target for Drug Development: Indications, Possible Complications, and Progress

Ketamine meets mTOR

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