Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036341 (schizophrenia)
60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To clarify the molecular mechanism of phencyclidine (PCP)-induced schizophreniform psychosis in humans and of behavioral abnormalities in experimental animals, we used differential screening of a cDNA library from the cerebral cortex of rats treated with PCP. We identified a PCP-induced cDNA clone as the gene encoding glutamate dehydrogenase (GDH), an enzyme central to glutamate metabolism. GDH mRNA levels significantly increased as early as 15 min following PCP administration in both the cerebral cortex and the cerebellum. This effect was observed even in the presence of a protein synthesis inhibitor, cycloheximide. In contrast to a transient increase in c-fos expression, the elevation of GDH mRNA levels lasted up to 8 days after a single PCP injection. These results suggest that GDH mRNA induction may be involved in the pathology of PCP-induced psychosis, and that GDH may be one of the candidate genes that are vulnerable in subjects with schizophrenia.
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PMID:Glutamate dehydrogenase mRNA is immediately induced after phencyclidine treatment in the rat brain. 926 80

There is strong evidence for the involvement of the neurotransmitter glutamate system in the pathogenesis of Alzheimer's disease and schizophrenia. In these mental diseases, the brain shows changes in the levels of glutamate and in the function and expression of its transporters and receptors. Since the levels of glutamate are largely determined by the rate of its metabolism, the changes of its concentrations may be associated with dysfunctions of appropriate enzymes. Actually, disturbances of glutamate metabolic enzymes, such as glutaminase, glutamate decarboxylase, and glutamine synthetase were detected in the brain of patients with Alzheimer's disease. The alterations in the expression of glutamine synthetase, glutamine synthetase-like protein, and three isoenzymes of glutamate dehydrogenase in the frontal cortex of patients with schizophrenia suggest that there are impaired glutamate metabolism in this mental disease and Alzheimer's disease.
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PMID:[Impaired cerebral glutamate metabolism in mental diseases (Alzheimer's disease, schizophrenia]. 1152 27

Basing primarily on the facts of altered levels of glutamate neurotransmitter, its receptors and transporters in schizophrenic brain, the "glutamatergic hypothesis" of schizophrenia has been broadened into the field of brain glutamate metabolism. Significantly changed levels of glutamine synthetase (GS) and glutamate dehydrogenase (GDH), the key enzymes involved in glutamine-glutamate cycling between neurons and glia, have been found in the prefrontal cortex (area 10) of patients with schizophrenia compared to controls (P<.01). The data were obtained by enzymatic activity determinations as well as immunoreactivity level evaluations for GS, glutamine synthetase-like protein (GSLP), and three GDH isoenzymes in brain extracts by immunoblotting using specific polyclonal and monoclonal antibodies. Inverse changes in amounts of proteins of GS and GSLP, as well as elevation in amounts of GDH isoenzymes have been observed in schizophrenia. The presented results provide evidence for the impairment of glutamate metabolism and, in turn, abnormalities in functioning of the glutamate-glutamine cycle in the frontal cortex of patients with schizophrenia.
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PMID:Glutamine synthetase and glutamate dehydrogenase in the prefrontal cortex of patients with schizophrenia. 1278 56

Abnormalities of the anterior cingulate cortex have previously been described in schizophrenia, major depressive disorder and bipolar disorder. In this study 2-DE was performed followed by mass spectrometric sequencing to identify disease-specific protein changes within the anterior cingulate cortex in these psychiatric disorders. The 2-DE system comprised IPGs 4-7 and 6-9 in the first, IEF dimension and SDS-PAGE in the second dimension. Resultant protein spots were compared between control and disease groups. Statistical analysis indicated that 35 spots were differentially expressed in one or more groups. Proteins comprising 26 of these spots were identified by mass spectroscopy. These represented 19 distinct proteins; aconitate hydratase, malate dehydrogenase, fructose bisphosphate aldolase A, ATP synthase, succinyl CoA ketoacid transferase, carbonic anhydrase, alpha- and beta-tubulin, dihydropyrimidinase-related protein-1 and -2, neuronal protein 25, trypsin precursor, glutamate dehydrogenase, glutamine synthetase, sorcin, vacuolar ATPase, creatine kinase, albumin and guanine nucleotide binding protein beta subunit. All but three of these proteins have previously been associated with the major psychiatric disorders. These findings provide support for the view that cytoskeletal and mitochondrial dysfunction are important components of the neuropathology of the major psychiatric disorders.
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PMID:Proteomic analysis of the anterior cingulate cortex in the major psychiatric disorders: Evidence for disease-associated changes. 1663 10

According to contemporary views, the glutamatergic system is implicated in the pathogenesis of schizophrenia, and atypical neuroleptics exert their effects (at least partially) through the glutamatergic system. Immunoreactive glutamate-metabolising enzymes, such as glutamine synthetase-like protein (GSLP) and two glutamate dehydrogenase isoenzymes (GDH), have been discovered in human platelets. The amount of GSLP in the platelets of 40 chronic patients with schizophrenia was found to be significantly higher than in 33 controls (consistent with our previous finding of increased amounts of GSLP in the prefrontal cortex of chronic schizophrenia patients). Moreover, survival analysis of the group of patients treated with olanzapine for 28 weeks showed that the larger amount of GSLP measured in platelets before treatment, the shorter the treatment time needed to achieve a positive clinical response (defined a priori as > or = 20% reduction in PANSS total score from the initial level before the treatment). Hence, GSLP level may serve as a predictor of the treatment duration to achieve a positive outcome with olanzapine. Both GSLP and GDH were found significantly changed in the course of treatment; hence, treatment with olanzapine influences the amounts of glutamate-metabolising enzymes in the platelets of chronic schizophrenia patients.
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PMID:Effect of olanzapine treatment on platelet glutamine synthetase-like protein and glutamate dehydrogenase immunoreactivity in schizophrenia. 1668 79

We have used a systemic approach to establish a relationship between enzyme measures of glial glutamate and energy metabolism (glutamine synthetase and glutamine synthetase-like protein, glutamate dehydrogenase isoenzymes, brain isoform creatine phosphokinase) and two major glial proteins (glial fibrillary acidic protein and myelin basic protein) in autopsied brain samples taken from patients with schizophrenia (SCH) and mentally healthy subjects (23 and 22 cases, respectively). These biochemical parameters were measured in tissue extracts in three brain areas (prefrontal cortex, caudate nucleus, and cerebellum). Significant differences in the level of at least one of the glutamate metabolizing enzymes were observed between two studied groups in all studied brain areas. Different patterns of correlative links between the biochemical parameters were found in healthy and schizophrenic brains. These findings give a new perspective to our understanding of the impaired regulation of enzyme levels in the brain in SCH.
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PMID:Systemic neurochemical alterations in schizophrenic brain: glutamate metabolism in focus. 1744 Aug 11

The glutamate-ergic hypothesis of schizophrenia pathogenesis has been substantially expanded due to recent data on changes in glutamate metabolizing enzymes (GME) in the brain of patients with schizophrenia. Significant changes in the amounts of glutamate synthetase (GS), glutamate synthetase-like protein (GSLP), and glutamate dehydrogenase (GDH) have been found. Alterations in the cerebral metabolism of glutamate (together with disturbances in glutamate receptors and transporters) apparently play an important role in the pathogenesis of schizophrenia. Glutamate dysmetabolism has been shown to be of systemic nature, i.e. the amounts of GME (GDH and GSLP) are elevated in platelets of patients with chronic schizophrenia, and these enzymes may be vital markers of glutamate system status. The amounts of GDH and GSLP were monitored in platelets of chronic patients during treatment with olanzapine, an atypical neuroleptic modulating glutamate concentration in the brain and blood of patients. GSLP amount can serve as a predictor of the duration of treatment to achieve a positive outcome. Further studies of GME in blood may result in elaboration of prognostically valuable biological tests not only for schizophrenia treatments, but also for other mental and nervous system diseases in which the glutamate system is substantially implicated.
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PMID:[Glutamate dysmetabolism in patients with schizophrenia]. 1750 Feb 10

Relative amounts of the glutamate metabolizing enzymes - glutamine synthetase, glutamine synthetase-like protein, three isoenzymes of glutamate dehydrogenase as well as creatine phosphokinase (a main astroglial energy metabolism enzyme) and major proteins of astro- and oligodendroglia - a glial fibrillary acidic protein and a myelin basic protein were determined in postmortem brain extracts from three areas - the prefrontal cortex, caudate nucleus and cerebellum - from mentally healthy subjects (n=21) and patients with chronic schizophrenia (n=23). To single out "metabolic types" the data obtained have been subjected to cluster analysis. It has been demonstrated for the first time that the cluster analysis of the biological parameters (enzymes and proteins) with correction for age, gender, postmortem interval and presence/absence of diagnosis, enables to distinguish "mentally healthy" cases and "schizophrenic patients" with a high degree of significance (mean mixing error <20%, small er, Cyrillic>>0,00004). Thus, we suppose that mentally healthy controls and patients with schizophrenia are objectively divided into different "metabolic types".
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PMID:[The complex neurochemical assessment of brain proteins in mentally healthy subjects and schizophrenic patients]. 1842 2

The authors searched for correlations between amounts of platelet proteins and results of psychometric tests in patients with the first episode psychosis (schizophrenia, schizoaffective psychosis) in the course of their combined antipsychotic treatment with haloperidol and clozapine. Psychometric evaluations (PANSS, BPRS) and analyses of platelet enzymes - glutamine synthetase-like protein (GSLP), glutamate dehydrogenase (GDH), and cytochrome c-oxidase (COX) - were carried out before, during, and after the treatment. These proteins were also analyzed in matched controls. All the parameters comprised a database, followed by statistical data processing using Statistica 6.0 (StatSoft) software, nonparametric statistics module. The patients before the treatment, when compared with controls, demonstrated significantly decreased COX activity (p=0,0000001) and increased GSLP amount (p=0,006) with a positive correlation between GSLP amount and PANSSneg (R=0,34, p<0,01). Those patients who displayed initially low COX activity (below median) demonstrated significant increase in COX activity after the treatment. Negative correlations were revealed between COX activity and PANSS, PANSSpsy scores during the treatment, i.e. the lower was COX activity, the more severe syndromes were observed. Negative correlations were found between the initial COX activity and PANSS, PANSSpsy, BPRS scores after the treatment, i.e., the higher was COX before the treatment, the less prominent syndromes were observed after the treatment. Significantly more "non-responders" by PANSSneg were found among the patients with low GSLP level (below median) than their calculated expected amount. The COX activity measured before the treatment was significantly lower in patients with schizophrenia than in patients with schizoaffective disorder (SAD) (p=0,038). In SAD patients, the initial COX activity was negatively correlated with PANSSpsy and BPRS scores after the treatment (R=-0,5, p=0,02), i.e. the lower was the COX the activity before the treatment, the more prominent syndromes were observed after the treatment.
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PMID:[Glutamine synthetase-like protein, glutamate dehydrogenase, and cytochrome c-oxidase in platelets of patients with the first episode psychosis in the course of treatment]. 2202 73

Brain imaging has revealed that the CA1 subregion of the hippocampus is hyperactive in prodromal and diagnosed patients with schizophrenia (SCZ), and that glutamate is a driver of this hyperactivity. Strikingly, mice deficient in the glutamate synthetic enzyme glutaminase have CA1 hypoactivity and a SCZ-resilience profile, implicating glutamate-metabolizing enzymes. To address this further, we examined mice with a brain-wide deficit in the glutamate-metabolizing enzyme glutamate dehydrogenase (GDH), encoded by Glud1, which should lead to glutamate excess due to reduced glutamate metabolism in astrocytes. We found that Glud1-deficient mice have behavioral abnormalities in the 3 SCZ symptom domains, with increased baseline and amphetamine-induced hyperlocomotion as a positive symptom proxy, nest building and social preference as a negative symptom proxy, and reversal/extradimensional set shifting in the water T-maze and contextual fear conditioning as a cognitive symptom proxy. Neuroimaging of cerebral blood volume revealed hippocampal hyperactivity in CA1, which was associated with volume reduction. Parameters of hippocampal synaptic function revealed excess glutamate release and an elevated excitatory/inhibitory balance in CA1. Finally, in a direct clinical correlation using imaging-guided microarray, we found a significant SCZ-associated postmortem reduction in GLUD1 expression in CA1. These findings advance GLUD1 deficiency as a driver of excess hippocampal excitatory transmission and SCZ symptoms, and identify GDH as a target for glutamate modulation pharmacotherapy for SCZ. More broadly, these findings point to the likely involvement of alterations in glutamate metabolism in the pathophysiology of SCZ.
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PMID:Glutamate Dehydrogenase-Deficient Mice Display Schizophrenia-Like Behavioral Abnormalities and CA1-Specific Hippocampal Dysfunction. 2947 49


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