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)

We examined the abilities of 7-nitroindazole and methylene blue, inhibitors of the neuronal isoform of nitric oxide synthase (NOS) and nitric oxide-stimulated guanylate cyclase activity respectively, to attenuate explosive episodic jumping behavior(s) ("popping") elicited by MK-801 in mice. MK-801, like phencyclidine (PCP), is a high-affinity, noncompetitive antagonist of the N-methyl-D-aspartate (NMDA) subtype of glutamate receptor. We have postulated that MK-801-elicited popping behavior in mice represents an animal model of schizophrenia, because popping behavior is markedly inhibited/antagonized by both typical and atypical antipsychotic drugs. In the present study, popping behavior induced by MK-801 was measured using an automated detection system that quantifies vertical displacements on the testing platform. 7-Nitroindazole (100 mg/kg) and methylene blue (32 and 100 mg/kg) significantly reduced the number and force of MK-801-elicited popping behavior. Mouse rotorod performance did not differ between animals receiving 7-nitroindazole, methylene blue, or their respective vehicles, suggesting that attenuation of MK-801-elicited popping behavior was not due to either sedation or ataxia caused by 7-nitroindazole or methylene blue. Our findings suggest that nitric oxide may, in part, mediate behaviors induced by NMDA receptor antagonists, like MK-801, and that inhibitors of NOS may have antipsychotic actions.
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PMID:7-Nitroindazole and methylene blue, inhibitors of neuronal nitric oxide synthase and NO-stimulated guanylate cyclase, block MK-801-elicited behaviors in mice. 879 90

There is growing interest in the role of the nitric oxide (NO) pathway in idiopathic psychotic disorders such as schizophrenia. In this preliminary study, we examined the therapeutic efficacy of methylene blue (MB), a "downstream" inhibitor of one of NO's actions, administered orally as an adjuvant to conventional neuroleptic medications. Specifically, MB blocks NO's activation of soluble guanylyl cyclase. MB has previously been reported to have therapeutic effects in the treatment of psychosis and mania. Preclinical data also suggest that MB might possess antipsychotic potential. Participants in the current study were eight patients with schizophrenia who had incomplete responses to conventional antipsychotics (as evidenced by a Brief Psychiatric Rating Scale [BPRS] total score of 35 or more). These patients completed a 4-week open-label study with a 1 week "off", 2 week "on", and one final week "off" design. Measures of treatment efficacy were the BPRS, Schedule for the Assessment of Negative Symptoms, and Clinical Global Improvement Scale administered weekly. Final scores for each outcome measure item were based on the consensus of at least two trained raters present during each rating interview. A statistically significant, albeit modest, decrease in the severity of psychopathology was observed while the subjects were taking MB, and psychopathology significantly worsened when MB was discontinued. The results suggest a need for further study with MB or perhaps other NO-dependent guanylyl cyclase-inhibiting medications.
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PMID:Methylene blue adjuvant therapy of schizophrenia. 926 Jul 34

Schizophrenia is a major public health problem that affects approximately 1% of the population worldwide. Schizophrenia-like symptoms can be induced in humans by phencyclidine (PCP), a drug with marked psychotomimetic properties. Phencyclidine disrupts prepulse inhibition of acoustic startle in rodents, a measure which has also been shown to be disrupted in schizophrenic patients. This effect is blocked by nitric oxide synthase (NOS) inhibitors, suggesting that nitric oxide plays an important role in this effect of phencyclidine. Methylene blue, a guanylate cyclase and nitric oxide syntase inhibitor, has shown therapeutic value as an adjuvant to conventional antipsychotics in the therapy of schizophrenia. The aim of the present study was to investigate if phencyclidine-(4 mg/kg)induced disruption of prepulse inhibition could be affected by methylene blue (50 or 100 mg/kg) in mice. Furthermore, the effect of methylene blue (50 mg/kg) on phencyclidine-(4 mg/kg)induced hyperlocomotion was investigated. The present study shows that phencyclidine readily disrupts prepulse inhibition in mice without affecting pulse-alone trials. It was also found that methylene blue prevents the decrease in prepulse inhibition caused by phencyclidine in a dose-related manner. Furthermore, the increase in locomotor activity caused by phencyclidine was reduced by pretreatment with methylene blue. The results from the present study further support the suggestion that the nitric oxide synthase/guanylate cyclase pathway is involved in pharmacological and behavioural effects of phencyclidine. Since phencyclidine as well exerts psychotomimetic characteristics, agents that interfere with the nitric oxide synthase/guanylate cyclase pathway may be of therapeutic value also in the treatment of schizophrenia.
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PMID:Phencyclidine-induced behaviour in mice prevented by methylene blue. 1474 49

Recent evidence suggests that nitric oxide (NO) systems are affected in the pathophysiology of schizophrenia. We quantified levels of neuronal NO synthase (nNOS) and soluble guanylate cyclase (sGC) subunit mRNAs in the prefrontal cortex of post-mortem brains from individuals with schizophrenia and controls using real-time quantitative PCR, to determine whether levels of nNOS and sGC subunits are altered in 'schizophrenic' brains. Neuronal NOS expression in the prefrontal cortex was significantly higher in individuals with schizophrenia, whereas no significant changes were found in sGC subunit mRNAs in people with schizophrenia or in controls. Abnormalities of nNOS expression in the brain might contribute to the development of schizophrenia.
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PMID:Expression of nNOS and soluble guanylate cyclase in schizophrenic brain. 1509 74

Neuronal nitric oxide synthase (nNOS) forms nitric oxide (NO), which functions as a signaling molecule via S-nitrosylation of various proteins and regulation of soluble guanylate cyclase (cGC)/cyclic guanosine monophosphate (cGMP) pathway in the central nervous system. nNOS signaling regulates diverse cellular processes during brain development and molecular mechanisms required for higher brain function. Human genetics have identified nNOS and several downstream effectors of nNOS as risk genes for schizophrenia. Besides the disease itself, nNOS has also been associated with prefrontal cortical functioning, including cognition, of which disturbances are a core feature of schizophrenia. Although mice with genetic deletion of nNOS display various behavioral deficits, no studies have investigated prefrontal cortex-associated behaviors. Here, we report that nNOS knockout (KO) mice exhibit hyperactivity and impairments in contextual fear conditioning, results consistent with previous reports. nNOS KO mice also display mild impairments in object recognition memory. Most importantly, we report for the first time working memory deficits, potential impairments in prefrontal cortex mediated cognitive function in nNOS KO mice. Furthermore, we demonstrate Disrupted-in-Schizophrenia 1 (DISC1), another genetic risk factor for schizophrenia that plays roles for cortical development and prefrontal cortex functioning, including working memory, is a novel protein binding partner of nNOS in the developing cerebral cortex. Of note, genetic deletion of nNOS appears to increase the binding of DISC1 to NDEL1, regulating neurite outgrowth as previously reported. These results suggest that nNOS KO mice are useful tools in studying the role of nNOS signaling in cortical development and prefrontal cortical functioning.
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PMID:Working memory deficits in neuronal nitric oxide synthase knockout mice: potential impairments in prefrontal cortex mediated cognitive function. 2153 6

Midbrain dopamine neurons regulate many important behavioral processes, and their dysfunctions are associated with several human neuropsychiatric disorders such as attention deficit hyperactivity disorder (ADHD) and schizophrenia. Here, we report that these neurons in mice selectively express guanylyl cyclase-C (GC-C), a membrane receptor previously thought to be expressed mainly in the intestine. GC-C activation potentiates the excitatory responses mediated by glutamate and acetylcholine receptors via the activity of guanosine 3',5'-monophosphate-dependent protein kinase (PKG). Mice in which GC-C has been knocked out exhibit hyperactivity and attention deficits. Moreover, their behavioral phenotypes are reversed by ADHD therapeutics and a PKG activator. These results indicate important behavioral and physiological functions for the GC-C/PKG signaling pathway within the brain and suggest new therapeutic targets for neuropsychiatric disorders related to the malfunctions of midbrain dopamine neurons.
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PMID:Role for the membrane receptor guanylyl cyclase-C in attention deficiency and hyperactive behavior. 2183 79

The isolation of heat-stable enterotoxin (STa) from Escherichia coli and cholera toxin from Vibrio cholerae has increased our knowledge of specific mechanisms of action that could be used as pharmacological tools to understand the guanylyl cyclase-C and the adenylyl cyclase enzymatic systems. These discoveries have also been instrumental in increasing our understanding of the basic mechanisms that control the electrolyte and water balance in the gut, kidney, and urinary tracts under normal conditions and in disease. Herein, we review the evolution of genes of the guanylin family and STa genes from bacteria to fish and mammals. We also describe new developments and perspectives regarding these novel bacterial compounds and peptide hormones that act in electrolyte and water balance. The available data point toward new therapeutic perspectives for pathological features such as functional gastrointestinal disorders associated with constipation, colorectal cancer, cystic fibrosis, asthma, hypertension, gastrointestinal barrier function damage associated with enteropathy, enteric infection, malnutrition, satiety, food preferences, obesity, metabolic syndrome, and effects on behavior and brain disorders such as attention deficit, hyperactivity disorder, and schizophrenia.
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PMID:From Escherichia coli heat-stable enterotoxin to mammalian endogenous guanylin hormones. 2465 26

Methylene Blue (MB) is considered to have diverse medical applications and is a well-described treatment for methemoglobinemias and ifosfamide-induced encephalopathy. In recent years the focus has shifted to MB as an antimalarial agent and as a potential treatment for neurodegenerative disorders such as Alzheimer's disease. Of interest are reports that MB possesses antidepressant and anxiolytic activity in pre-clinical models and has shown promise in clinical trials for schizophrenia and bipolar disorder. MB is a noteworthy inhibitor of monoamine oxidase A (MAO-A), which is a well-established target for antidepressant action. MB is also recognized as a non-selective inhibitor of nitric oxide synthase (NOS) and guanylate cyclase. Dysfunction of the nitric oxide (NO)-cyclic guanosine monophosphate (cGMP) cascade is strongly linked to the neurobiology of mood, anxiety and psychosis, while the inhibition of NOS and/or guanylate cyclase has been associated with an antidepressant response. This action of MB may contribute significantly to its psychotropic activity. However, these disorders are also characterised by mitochondrial dysfunction and redox imbalance. By acting as an alternative electron acceptor/donor MB restores mitochondrial function, improves neuronal energy production and inhibits the formation of superoxide, effects that also may contribute to its therapeutic activity. Using MB in depression co-morbid with neurodegenerative disorders, like Alzheimer's and Parkinson's disease, also represents a particularly relevant strategy. By considering their physicochemical and pharmacokinetic properties, analogues of MB may provide therapeutic potential as novel multi-target strategies in the treatment of depression. In addition, low MAO-A active analogues may provide equal or improved response with a lower risk of adverse effects.
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PMID:Methylene blue and its analogues as antidepressant compounds. 2876 73