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)

Regional abnormalities of brain connectivity may be an important substrate for the expression of schizophrenia, a severe form of mental illness. Brain imaging and postmortem morphometric studies indicate hippocampal structure is abnormal in schizophrenia. To study molecular components of hippocampal connectivity the presynaptic proteins SNAP-25 and synaptophysin were assayed in postmortem samples. Immunocytochemical studies indicated reduced SNAP-25 immunoreactivity in schizophrenia compared to controls, particularly in the terminal fields of entorhinal cortex projections. Although there were no overall changes in synaptophysin immunoreactivity, in the granule cell layer of the dentate gyrus synaptophysin immunoreactivity was increased in schizophrenia. These results indicate that disconnection of a subset of hippocampal circuitry from the entorhinal cortex, as well as intrinsic changes in hippocampal connectivity, may contribute to the mechanism of illness in schizophrenia.
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PMID:SNAP-25 deficit and hippocampal connectivity in schizophrenia. 961 21

The neural cell adhesion molecule (N-CAM) is a cell recognition molecule that is involved in cellular migration, synaptic plasticity, and CNS development. In schizophrenia, a 105- to 115-kDa N-CAM protein is increased in CSF and in the hippocampus and prefrontal cortex. The variable alternatively spliced exon (VASE) of N-CAM is developmentally regulated and can be spliced into any of the major 120-, 140-, and 180-kDa N-CAM isoforms. We determined that the variable alternative spliced exon of N-CAM (VASE) also is increased in bipolar disorder by quantitative Western immunoblot. VASE immunoreactive proteins (triplet bands around 140 kDa and a single band around 145 kDa) were identified in soluble and membrane brain extracts and quantified in the hippocampus. Soluble VASE 140 kDa was increased in the hippocampus of patients with bipolar disorder as compared to controls, patients with schizophrenia, and suicide cases. Membrane-extracted VASE 140 and 145 kDa were unchanged in the same groups. Multiple 145-kDa VASE-immunoreactive proteins that also reacted to an N-CAM antibody were separated by isoelectric focusing and electrophoresis followed by western immunoblotting; however, the VASE 140-kDa proteins were only weakly N-CAM immunoreactive. By immunohistochemistry, VASE colocalized with GFAP-positive astrocytes in the hippocampus. VASE immunostaining was also observed in the cytoplasm of CA4 pyramidal neurons that were positive for phosphorylated high molecular weight neurofilament and synaptophysin terminals. Thus no differences in VASE were found in patients with schizophrenia, but there was a marked increase of VASE immunoreactive proteins in bipolar disorder. It is possible that abnormal regulation of N-CAM proteins results in differing patterns of abnormal expression in neuropsychiatric disorders.
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PMID:VASE-containing N-CAM isoforms are increased in the hippocampus in bipolar disorder but not schizophrenia. 987 62

Growth-associated protein-43 is involved in maturational and plasticity-associated processes, and changes in growth-associated protein-43 expression are a marker of altered plasticity following experimental and neuropathological lesions. Using in situ hybridization, we have investigated growth-associated protein-43 mRNA in the medial temporal lobe and cerebral cortex in 11 normal subjects and 11 matched subjects with schizophrenia, a disorder in which perturbed neurodevelopment and aberrant plasticity are implicated. In the schizophrenia group, growth-associated protein-43 messenger RNA was decreased in the medial temporal lobe, primary visual cortex and anterior cingulate gyrus, but was unaltered in the superior temporal and dorsolateral prefrontal cortices. Correlations of growth-associated protein-43 messenger RNA signal between areas were stronger and more numerous in the schizophrenics than in the controls, suggesting a more global regulation of growth-associated protein-43 expression. Finally, the ratio of growth-associated protein-43 messenger RNA to synaptophysin messenger RNA--a putative index of the production of new synapses--was decreased in the medial temporal lobe in the schizophrenics. Our findings imply that neuronal plasticity as indexed by growth-associated protein-43 expression is impaired, and perhaps aberrantly regulated, in schizophrenia. The data support the emerging view that the disease pathophysiology is one which affects the hippocampal and cortical circuitry and that the abnormalities are reflected in the altered expression of specific neuronal genes.
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PMID:Hippocampal and cortical growth-associated protein-43 messenger RNA in schizophrenia. 988 59

The hippocampal formation (HF) has been a centerpiece of neuropathologic investigations of schizophrenia. Numerous MRI studies have demonstrated a slight bilateral reduction in HF volume. Reports of reduced N-acetyl aspartate measured with in vivo proton spectroscopy suggest that neuronal pathology exists. However, morphometric data from postmortem studies have not revealed a clear change in HF size, and recent studies of neuronal number and of cytoarchitecture have been largely negative. Evidence of glial proliferation is consistently absent. The most reproducible positive anatomic finding in postmortem HF has been reduced size of neuronal cell bodies. Studies of gene transcription have provided replicable evidence of decreased expression of mRNAs for synaptophysin, GAP-43, cholecystokinin, and non-NMDA glutamate receptor subunits (GLU R 1 and 2), particularly in CA 3-4. These data about the cellular and molecular biology of the HF in schizophrenia are different from that found in a number of conditions associated with hippocampal damage, including excitotoxicity, epilepsy, alcoholism, Alzheimer's disease, steroid neurotoxicity, and normal aging. Notwithstanding the real possibility that the data are epiphenomena of chronic illness, the findings may implicate a unique cellular defect in schizophrenia--a genetic variation affecting the plasticity of HF circuitry and connectivity. Directions for further research are proposed.
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PMID:Cell biology of the hippocampal formation in schizophrenia. 1007 7

An impairment of prefrontal cortical functioning in schizophrenia ('hypofrontality') has been suggested by clinical, neuroimaging, and postmortem brain tissue studies. We used Western immunoblot and Northern hybridization analyses of postmortem brain tissue obtained from 14 schizophrenic patients and 12 control patients of similar ages to measure tissue levels of synaptophysin (a structural synaptic vesicle protein) and of SNAP-25 (a 25-kDa presynaptic protein), and their encoding mRNAs, in Brodmann's area 10 of prefrontal cortex. There were significant decreases in tissue levels of both of these proteins in prefrontal cortex of schizophrenic patients relative to controls. In contrast, tissue levels for the mRNAs encoding these proteins were not decreased in schizophrenic patients. Subsequent labeling of the same Western immunoblots showed no difference in tissue levels of glial fibrillary acidic protein (GFAP) in schizophrenic and control patients. Similarly, subsequent hybridization of the same Northern hybridization membranes showed no difference in tissue levels of GFAP mRNA or of 28S rRNA in schizophrenic and control patients. These alterations in tissue levels of synaptophysin and SNAP-25 are consistent with the idea that the clinically observed 'hypofrontality' of schizophrenia arises from abnormalities of synaptic number or structural integrity in prefrontal cortex.
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PMID:Alterations in synaptic proteins and their encoding mRNAs in prefrontal cortex in schizophrenia: a possible neurochemical basis for 'hypofrontality'. 1008 7

Isolation rearing of rat pups from weaning produces neurochemical and behavioural changes that may have relevance to the neurodevelopmental basis of neuropsychiatric disorders such as schizophrenia. Although limited, studies have begun to probe for neuroanatomical changes produced by isolation rearing. In the present study, rat pups were reared in isolation, i.e., housed one per cage, from weaning. After 8 weeks of isolation, 'isolates' were compared to their socially reared controls (housed three per cage) in two behavioural paradigms: locomotor activity in a novel open field and prepulse inhibition (PPI) of the acoustic startle response. Subsequently, all rats were sacrificed and their brains removed. The hippocampus was sectioned and analysed immunohistochemically using an antibody to the synapse-specific protein synaptophysin, to gain an estimate of the synaptic content of selected hippocampal subfields. Isolates demonstrated locomotor hyperactivity and deficits in PPI relative to socially reared controls. Analysis of synaptophysin immunoreactivity suggested that isolates had significantly reduced synaptic content in the hippocampal dentate gyrus molecular layer, with smaller, non-significant reductions in the CA1 and CA3 regions. This pattern of change may be consistent with reduced neuronal input to the dentate gyrus via the entorhinal cortex, suggesting developmental changes in hippocampal-cortical circuitry. These preliminary studies extend the characterisation of isolation rearing as a model for the investigation of neurodevelopmental diseases such as schizophrenia.
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PMID:Reduced synaptophysin immunoreactivity in the dentate gyrus of prepulse inhibition-impaired isolation-reared rats. 1019 49

Abnormalities of proteins involved in neurotransmission and neural plasticity at synapses are reported in schizophrenia, and may be markers of dysregulated neural connectivity in this illness. Studies of brain development and neural regeneration indicate a dynamic interplay between neural and oligodendroglial mechanisms in regulating synaptic plasticity and axonal sprouting. In the present study, markers of synapses (synaptophysin), plasticity (growth-associated protein-43) and oligodendrocytes (myelin basic protein) were investigated in anterior frontal cortex homogenates from individuals with schizophrenia and depression. Synaptophysin immunoreactivity was reduced in schizophrenics who died of natural causes relative to controls. Myelin basic protein immunoreactivity was decreased in both schizophrenics and depressed individuals who died by suicide. Overall, no changes were observed in growth-associated protein-43 immunoreactivity. However, a slight increase in immunoreactivity in depressed suicides relative to control was observed. These findings support the hypothesis that synaptic abnormalities are a substrate for disordered connectivity in severe mental illness, and suggest that synaptic-oligodendroglial interactions may contribute to the mechanism of dysregulation in certain cases.
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PMID:Synaptic and plasticity-associated proteins in anterior frontal cortex in severe mental illness. 1039 32

Most in situ hybridization histochemistry studies of messenger RNA in human brain have been carried out on frozen tissue. Recently, autoclaving has been reported to enable routinely processsed material to be used for in situ localization of messenger RNA. We have investigated whether autoclaving also permits in situ hybridization histochemistry to be used quantitatively. To do this, we targeted synaptophysin messenger RNA with a 35S-labelled oligonucleotide probe in autoclaved, formalin-fixed, paraffin wax-embedded sections of the hippocampal formation of 11 schizophrenics and 11 controls. We compared the results with those seen on frozen sections from adjacent blocks, which had been used previously to demonstrate a loss of the messenger RNA in schizophrenia. Synaptophysin messenger RNA was readily detected in the autoclaved sections. The hybridization signal correlated strongly with that seen in the frozen sections. We found a similar pattern and magnitude of decreased synaptophysin messenger RNA in schizophrenia in the autoclaved sections as we had in the frozen sections, including the selective preservation of synaptophysin messenger RNA in CA1. The reduction of synaptophysin messenger RNA was replicated when six subjects with schizophrenia not included in the earlier study were considered separately. We conclude that autoclaving renders formalin-fixed, paraffin wax-embedded sections of human brain suitable for quantitative in situ hybridization histochemistry. This has considerable implications, given the wider availability, better morphology and easier handling of fixed than frozen human brain tissue. Using this material, we confirmed the finding of decreased synaptophysin messenger RNA in the hippocampal formation in schizophrenia, furthering the evidence for synaptic pathology in this region in the disorder.
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PMID:Detection and quantification of hippocampal synaptophysin messenger RNA in schizophrenia using autoclaved, formalin-fixed, paraffin wax-embedded sections. 1043 Apr 74

Schizophrenia and bipolar disorder have both been linked to structural abnormalities of the hippocampus, which is consistent with a neurodevelopmental anomaly. One isoform of the neural cell adhesion molecule (N-CAM) protein, cytosolic N-CAM 105-115 kDa, was previously shown to be increased in schizophrenia in the hippocampus and prefrontal cortex. Another isoform of N-CAM, the variable alternative spliced exon of N-CAM, was also increased in the hippocampus and prefrontal cortex of bipolar disorder patients. In the present study, the secreted isoform of N-CAM (SEC N-CAM), synaptophysin, and actin proteins were measured in the hippocampus of controls, suicide victims, and patients with bipolar disorder or schizophrenia by quantitative Western immunoblotting. Previous measurements of cytosolic N-CAM (105-115 kDa) protein, from the same hippocampus samples, were used to calculate the N-CAM (105-115 kDa)/synaptophysin ratio. An affinity purified antibody to SEC N-CAM recognized SEC N-CAM (108 kDa and 115 kDa) in brain but SEC N-CAM was not detectable in CSF. In bipolar disorder, but not in schizophrenia, an increased SEC N-CAM 115 kDa/108 kDa ratio was found as compared to controls (P = 0.03). The synaptophysin/actin ratio was significantly decreased in schizophrenia (P = 0.014) as compared to controls. The cytosolic N-CAM 105-115 kDa/synaptophysin ratio was increased in patients with schizophrenia (P= 0.017), but not in bipolar disorder. Thus, bipolar disorder patients show altered expression of SEC N-CAM in the hippocampus. Patients with schizophrenia show a decrease in synaptophysin and an increase in the cytosolic N-CAM 105-115 kDa/synaptophysin ratio. The results offer further evidence of differences in protein expression between bipolar disorder and schizophrenia in the hippocampus, which is consistent with a distinct neuropathology for each neuropsychiatric disorder.
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PMID:Alterations of hippocampal secreted N-CAM in bipolar disorder and synaptophysin in schizophrenia. 1052 20

Two synaptic-vesicle proteins, rab3a and synaptophysin, have been studied on post-mortem brain tissues of schizophrenics and healthy controls. We found significantly reduced levels of rab3a in thalamus (p<0.001); for both proteins in gyrus cinguli and hippocampus (p<0.0001); for rab3a in frontal and parietal cortex (p<0.05); and no differences in temporal cortex or cerebellum in schizophrenics compared with controls. Reduced synaptic density may be a prominent feature of the molecular neuropathology of schizophrenia.
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PMID:The synaptic-vesicle-specific proteins rab3a and synaptophysin are reduced in thalamus and related cortical brain regions in schizophrenic brains. 1054 Oct 3


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