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)

Prefrontal cortex (Brodmann's area 9) levels of the methyl donor S-adenosyl methionine were increased by about two-fold in schizophrenia and bipolar disorder patients, but not in unipolar depressed patients compared with nonpsychiatric subjects from the Stanley Foundation Neuropathology Consortium (Bethesda, Maryland, USA). Neither age, brain weight and pH, hemisphere, post-mortem interval, disease onset/duration, nor cumulative dose of fluphenazine affected S-adenosyl methionine content. In schizophrenia and bipolar disorder patients, the increase of S-adenosyl methionine is associated with an overexpression of DNA methyltransferase-1 mRNA in Brodmann's area 9 GABAergic neurons. Hence, the increased expression of S-adenosyl methionine and DNA methyltransferase-1 may contribute to promoter cytosine 5-methylation and to downregulation of the expression of mRNAs encoding for reelin and GAD67 in cortical GABAergic neurons of schizhophrenia and bipolar disorder patients.
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PMID:S-adenosyl methionine and DNA methyltransferase-1 mRNA overexpression in psychosis. 1725 61

In the cerebral prefrontal cortex (PFC), DNA-methyltransferase 1 (DNMT1), the enzyme that catalyzes the methylation of cytosine at carbon atoms in position 5 in CpG dinucleotides, is expressed selectively in GABAergic neurons and is upregulated in layers I and II of schizophrenia (SZ) and bipolar disorder patients with psychosis (BDP). To replicate these earlier findings and to verify whether overexpression of DNMT1 and the consequent epigenetic decrease of reelin and glutamic acid decarboxylase (GAD) 67 mRNA expression also occur in GABAergic medium spiny neurons of the caudate nucleus (CN) and putamen (PT) of SZ and BDP, we studied the entire McLean 66 Cohort (Harvard Brain Tissue Resource Center, McLean Hospital, Belmont, MA) including SZ and BDP, which were matched with nonpsychiatric subjects. The data demonstrate that in GABAergic medium spiny neurons of CN and PT, unlike in GABAergic neurons of layer I and II PFC, the increased expression of DNMT1 and the decrease of reelin and GAD67 occur in SZ but not in BDP. This suggests that different epigenetic mechanisms must exist in the pathogenesis underlying SZ and BDP and implies that these disorders might involve two separate entities that are characterized by a well-defined neuropathology.
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PMID:Epigenetic mechanisms expressed in basal ganglia GABAergic neurons differentiate schizophrenia from bipolar disorder. 1727 Apr

GABAergic dysfunction is present in the hippocampus in schizophrenia (SZ) and bipolar disorder (BD). The trisynaptic pathway was "deconstructed" into various layers of sectors CA3/2 and CA1 and gene expression profiling performed. Network association analysis was used to uncover genes that may be related to regulation of glutamate decarboxylase 67 (GAD(67)), a marker for this system that has been found by many studies to show decreased expression in SZs and BDs. The most striking change was a down-regulation of GAD(67) in the stratum oriens (SO) of CA2/3 in both groups; CA1 only showed changes in the SO of schizophrenics. The network generated for GAD(67) contained 25 genes involved in the regulation of kainate receptors, TGF-beta and Wnt signaling, as well as transcription factors involved in cell growth and differentiation. In SZs, IL-1beta, (GRIK2/3), TGF-beta2, TGF-betaR1, histone deacetylase 1 (HDAC1), death associated protein (DAXX), and cyclin D2 (CCND2) were all significantly up-regulated, whereas in BDs, PAX5, Runx2, LEF1, TLE1, and CCND2 were significantly down-regulated. In the SO of CA1 of BDs, where GAD67 showed no expression change, TGF-beta and Wnt signaling genes were all up-regulated, but other transcription factors showed no change in expression. In other layers/sectors, BDs showed no expression changes in these GAD(67) network genes. Overall, these results are consistent with the hypothesis that decreased expression of GAD(67) may be associated with an epigenetic mechanism in SZ. In BD, however, a suppression of transcription factors involved in cell differentiation may contribute to GABA dysfunction.
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PMID:Regulation of the GABA cell phenotype in hippocampus of schizophrenics and bipolars. 1755 60

Histone deactylase enzymes are responsible for the deacetylation of histone tails, and consequently influence gene regulation through their ability to modify chromatin structure surrounding promoter regions. We analyzed the microarray collection of the National Brain Databank to investigate differential expression of these enzymes in the prefrontal cortices of control, schizophrenia and bipolar subjects. HDAC1 expression levels were significantly higher in schizophrenia versus normal subjects. The mRNA expression level of an epigenetically regulated schizophrenia candidate gene GAD67 was strongly and negatively correlated with the mRNA expression levels of HDAC1, HDAC3 and HDAC4 levels. These findings provide additional support for the proposal that epigenetic factors are operative in the brain pathology of patients with schizophrenia.
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PMID:Histone deactylase 1 expression is increased in the prefrontal cortex of schizophrenia subjects: analysis of the National Brain Databank microarray collection. 1796 87

In this review, we discuss changes in the regulation of gene expression in the central nervous system (CNS) associated with DNA (cytosine-5) methylation, chromatin remodeling and post-translational covalent modifications of histones. During brain development, abnormal intrinsic or extrinsic cues may compromise epigenetic processes regulating neural stem cell proliferation and differentiation and thus directly or indirectly could contribute to altered epiphenotypes leading to psychiatric disorders. These mechanisms, that include chromatin remodeling and reversible changes in promoter methylation patterns, are largely expressed by terminally differentiated cortical GABAergic neurons. These neurons are unique among various brain cell subtypes because they express high levels of DNA-methyltransferase-1 (DNMT1). Moreover, DNMT1 expression is further increased in schizophrenia (SZ) and bipolar (BP) disorder brains. To unravel how this pathological DNMT1 overexpression induces GABAergic neuronal dysfunction in SZ and in other psychoses, we report on how alterations in methylation modify the expression of susceptible vulnerability genes such as reelin or GAD67 in these neurons. The results encourage the view that promoter hypermethylation in GABAergic neurons that occurs in SZ represents a testable target for novel therapeutic strategies to treat this disorder.
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PMID:Reviewing the role of DNA (cytosine-5) methyltransferase overexpression in the cortical GABAergic dysfunction associated with psychosis vulnerability. 1796 95

Considerable evidence based on the study of postmortem brain tissue suggests deficits in both neuronal and myelin systems in schizophrenia (SZ). To date, the majority of the biochemical and molecular biological studies have focused on the cerebral cortex. Most information traveling to or from the cortex is relayed or synaptically gated through the thalamus, and numerous studies suggest structural and functional abnormalities in interconnected regions of the thalamus and cortex in SZ. The present study extends our gene expression studies of neuronal and myelin systems to the thalamus. Quantitative PCR was employed to assess the expression of 10 genes in 5 divisions of the thalamus which were precisely harvested using Laser Capture Microdissection. The divisions studied were present on coronal sections at the level of the centromedian nucleus (CMN) taken from 14 schizophrenic and 16 normal control postmortem brains. The genes examined were specific for oligodendrocytes (MAG, CNP, MBP), neurons (ENO2), glutamatergic neurons (VGlut1, VGlut2, PV, CB) or GABAergic neurons (GAD65, GAD67). Expression levels for each of these markers were quantitated and compared between diagnoses, between sexes, and across nuclei. CB was much more highly expressed in the CMN in SZs compared to NCs. No other diagnosis related differences in gene expression were observed. The expression levels of CNP and MAG, but not MBP, were highly correlated with one another and both, but not MBP, were much more highly expressed in females than in males in all thalamic divisions examined. All markers were differentially expressed across nuclei.
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PMID:Schizophrenia and sex associated differences in the expression of neuronal and oligodendrocyte-specific genes in individual thalamic nuclei. 1802 46

Abuse of the dissociative anesthetic ketamine can lead to a syndrome indistinguishable from schizophrenia. In animals, repetitive exposure to this N-methyl-d-aspartate-receptor antagonist induces the dysfunction of a subset of cortical fast-spiking inhibitory interneurons, with loss of expression of parvalbumin and the gamma-aminobutyric acid-producing enzyme GAD67. We show here that exposure of mice to ketamine induced a persistent increase in brain superoxide due to activation in neurons of reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase. Decreasing superoxide production prevented the effects of ketamine on inhibitory interneurons in the prefrontal cortex. These results suggest that NADPH oxidase may represent a novel target for the treatment of ketamine-induced psychosis.
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PMID:Ketamine-induced loss of phenotype of fast-spiking interneurons is mediated by NADPH-oxidase. 1806 1

Heterozygous reeler mouse has been used as an animal model for schizophrenia based on several neuropathological and behavioral abnormalities homologous to schizophrenia. Since some of these abnormalities are primarily associated with altered BDNF signaling we investigated BDNF signaling in the frontal cortex of reeler mice in order to shed some light on the neuropathology and treatment of schizophrenia. BDNF, TrkB receptor isoforms (full-length and truncated), reelin, GAD67, GAD65, p75NTR, and NRH-2 levels were measured in the frontal cortex samples from reeler (B6C3Fe a/a-Reln rl/+) and wild-type (WT) mice. BDNF protein levels were significantly higher in reeler compared to WT. The protein levels of full-length TrkB were not altered in reeler mice, but both mRNA and protein levels of truncated TrkB were significantly higher. Protein analysis showed that TrkB activity, as indicated by the levels of tyrosine-phosphorylated TrkB, was lower in reeler mice. We did not find any significant change in the levels of p75NTR and NRH-2, regulatory proteins of TrkB signaling, in the reeler mice. Furthermore, we found significant reduction in reelin and GAD67 expressions, but not GAD65 expression in reeler compared to WT mice. In summary, molecular processes associated with defective BDNF signaling in reeler mice provide new therapeutic targets for neuroprotective pharmacotherapy for schizophrenia.
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PMID:Increased truncated TrkB receptor expression and decreased BDNF/TrkB signaling in the frontal cortex of reeler mouse model of schizophrenia. 1818 10

Many risk genes interact synergistically to produce schizophrenia and many neurotransmitter interactions have been implicated. We have developed a circuit-based framework for understanding gene and neurotransmitter interactions. NMDAR hypofunction has been implicated in schizophrenia because NMDAR antagonists reproduce symptoms of the disease. One action of antagonists is to reduce the excitation of fast-spiking interneurons, resulting in disinhibition of pyramidal cells. Overactive pyramidal cells, notably those in the hippocampus, can drive a hyperdopaminergic state that produces psychosis. Additional aspects of interneuron function can be understood in this framework, as follows. (i) In animal models, NMDAR antagonists reduce parvalbumin and GAD67, as found in schizophrenia. These changes produce further disinhibition and can be viewed as the aberrant response of a homeostatic system having a faulty activity sensor (the NMDAR). (ii) Disinhibition decreases the power of gamma oscillation and might thereby produce negative and cognitive symptoms. (iii) Nicotine enhances the output of interneurons, and might thereby contribute to its therapeutic effect in schizophrenia.
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PMID:Circuit-based framework for understanding neurotransmitter and risk gene interactions in schizophrenia. 1839 5

Postmortem studies have shown that schizophrenia produces a reduction in the 67-kilodalton isoform of glutamic acid decarboxylase (GAD67), a key enzyme for gamma-aminobutyric acid (GABA) synthesis. N-methyl-d-aspartate receptor (NMDAR) antagonists have been extensively used to study schizophrenia because they can induce many aspects of the disease, including the decrease in GAD67. It is generally thought that this reduction in GAD implies a reduction in functional inhibition, but direct evidence had been lacking. We have therefore performed physiological studies in slices of prefrontal cortex taken from rats treated with the NMDAR antagonist ketamine. Both frequency and amplitude of miniature inhibitory postsynaptic currents were reduced. Consistent with a reduction of inhibition, we observed an increase in postsynaptic excitability. The increased excitability is likely to result from disinhibition because miniature excitatory postsynaptic current properties and intrinsic excitability were not changed. Ketamine did not affect inhibition or GAD levels in young rats, indicating a developmental regulation that may be related to the developmental increase in ketamine sensitivity that occurs in humans. Our results show that NMDAR antagonist produces biochemical changes in the GABA system that lead to a functional disinhibition. Such disinhibition would be expected to decrease gamma oscillations, which are reduced in schizophrenia.
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PMID:Prolonged exposure to NMDAR antagonist suppresses inhibitory synaptic transmission in prefrontal cortex. 1852 22


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