UMLS:C0036341 - FACTA Search

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

Synapses formed between mossy fibers, the axons of hippocampal dentate granular cells, and the dendrites of CA3 pyramidal neurons are important links within the trisynaptic circuitry. Abnormalities in this circuitry are associated with the failure of schizophrenics to integrate affective experience with higher cognitive function, and with disturbances in memory and spatial learning processes. The abnormalities include reduced size and altered dendritic arborization of CA3 pyramidal neurons. In addition, decreased expression and binding activity of glutamate receptors have been reported, predominantly in the CA3 region of the hippocampus. These findings suggest that there are disturbed neuronal processes and connections in the hippocampus of schizophrenics. An electron microscope morphometric study of synaptic contacts between mossy fiber axon terminals (MFT) and branched dendritic spines of pyramidal neurons in stratum lucidum of the CA3 region of the hippocampus was performed in 10 normal controls and 9 age-matched chronic schizophrenics (postmortem delay 3-9 h). Schizophrenic cases with predominantly positive symptoms had a significantly reduced volume fraction of spines (-35%, P < 0.05), total number of invaginated spines (-47%, P < 0.01), and number of spines forming synapses (-32%, P < 0.05) per MFT compared with the control group. No effects of postmortem delay, age, duration of disease, or neuroleptic exposure were found. These data may reflect decreased efficacy of mossy fiber synapses in the CA3 hippocampal region in schizophrenics with predominantly positive symptoms. These data are in line with the neurodevelopmental hypothesis of schizophrenia.
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PMID:Ultrastructural alterations in hippocampal mossy fiber synapses in schizophrenia: a postmortem morphometric study. 1585 35

We identified CAT 53 by cDNA hybridization selection as an expressed sequence tag (EST), located in the vicinity of HLA-C and designated as CAT (for HLA-C associated transcript) 53. CAT 53 encodes a protein described by others and commonly known as phosphatase 1 nuclear targeting subunit (PNUTS). PNUTS is a potent inhibitor of nuclear serine/threonine protein phosphatase 1 (PP1). We present the genomic organization of CAT 53, localize specific sites of mRNA transcription in thin sections of mouse brain by in-situ hybridization, and perform a structural analysis of the peptide domains. We also characterize the protein expression pattern for PNUTS by Western blotting and immunohistochemistry with PNUTS antibody in Alzheimer's disease (AD) brains and age-matched control brains. In-situ hybridization and immunohistochemistry analysis of human and mouse brain show high CAT 53 expression in the olfactory cortex, piriform cortex, and hippocampus. Very high expression of CAT 53 was found mainly in the hippocampus, frontal, and entorhinal cortex of control brains and in the neurofibrillary tangles of AD brain. In the hippocampus, CAT 53 is expressed in CA1 and CA3 cell layers and in the dentate gyrus. The hippocampus is known to play a fundamental role in learning and episodic memories and has been implicated in a number of neurological and psychiatric disorders, including AD, epilepsy, and schizophrenia. Our findings suggest that PNUTS, encoded by CAT 53 on 6p21.3, may have a role in the progression of AD.
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PMID:CAT 53: a protein phosphatase 1 nuclear targeting subunit encoded in the MHC Class I region strongly expressed in regions of the brain involved in memory, learning, and Alzheimer's disease. 1589 2

AMPA receptor potentiating drugs (e.g. ampakines) enhance glutamatergic neurotransmission, and may have potential therapeutic consequences in CNS disorders. The neuroanatomical basis of action for these compounds is at present unclear. This study aimed to identify the effects of two novel ampakines, Org 26576 and Org 24448, on local cerebral glucose use (LCGU) in the mouse. C57BL/6J mice received Org 26576 (0.1, 1, 10 mg/kg i.p.) or Org 24448 (3, 10, 30 mg/kg i.p.) or vehicle and LCGU was assessed using 14C-2-deoxyglucose autoradiography. Both compounds produced dose-dependent increases in LCGU with specific regional activation at low doses. Org 26576 (1 mg/kg) produced significant increases in 9 of the 43 areas examined, including the anteroventral and laterodorsal thalamus, cingulate cortex, dentate gyrus and CA3 subfield of the hippocampus. Org 24448 (3 mg/kg) produced significant increases in LCGU in 4 of the 43 regions examined, including the dorsal raphe nucleus, medial lateral habenula, CA1 subfield of the hippocampus and median forebrain bundle. Furthermore, the increases in LCGU observed with both Org 26576 (10 mg/kg) and Org 24448 (10 mg/kg) were blocked by pre-treatment with the AMPA receptor antagonist NBQX (10 mg/kg). These data demonstrate that both Org 26576 and Org 24448 produce dose-dependent AMPA receptor mediated increases in LCGU and provide an anatomical basis suggestive that these drugs may be of use in the treatment of conditions such as depression or schizophrenia.
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PMID:Regionally selective and dose-dependent effects of the ampakines Org 26576 and Org 24448 on local cerebral glucose utilisation in the mouse as assessed by 14C-2-deoxyglucose autoradiography. 1599 47

Defects in serotonergic transmission, including serotonin transporter (SERT) function, have been implicated in depression, anxiety disorders and some aspects of schizophrenia. The sex steroid hormone estrogen is known to modulate functional SERT activity, but whether it is up- or down-regulated is unclear. The aim of the present study was to examine the effect of a low estrogen state in mice on the behavioral effect of drugs acting through the SERT, serotonin uptake kinetics and SERT density in the hippocampus. We compared control mice, ovariectomized (OVX) C57BL/6J mice and aromatase knockout (ArKO) mice that are unable to produce estrogen. Fluoxetine treatment, but not fenfluramine treatment, significantly increased prepulse inhibition (PPI), a measure of sensorimotor gating, in C57BL/6J mice. The effect of fluoxetine was greater in OVX compared to sham-operated mice. In ArKO and J129 wild-type mice, fluoxetine increased PPI to the same extent while fenfluramine increased PPI more in ArKO mice compared to controls. Measurement of the time-course for diffusion and reuptake of exogenous serotonin in the CA3 region of the hippocampus showed that, in OVX mice, the fluoxetine-induced slowing of signal decay after application of serotonin was enhanced when compared to sham-operated controls. Similarly, in ArKO mice, the effect of fluoxetine was enhanced, suggesting that SERT function was greater than in J129 wild-type controls. Measurement of SERT density by [3H]-citalopram autoradiography, revealed an 18% decrease in hippocampus of OVX mice compared to intact controls. SERT density was also significantly reduced in nucleus accumbens (26%) but not in other regions, such as the raphe nuclei. Together, these results suggest that a low estrogen state increases SERT activity in the hippocampus despite an apparent reduction in SERT density. The behavioral consequences of these changes depend on the model of estrogen state used.
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PMID:The effect of low estrogen state on serotonin transporter function in mouse hippocampus: a behavioral and electrochemical study. 1629 49

Recent studies indicate that levels of presynaptic proteins are altered in the post-mortem brain in schizophrenia. In particular, the hippocampus exhibits reduced levels of synaptophysin and the SNARE protein SNAP-25. The effects of treatment with antipsychotic drugs on levels of SNAP-25 in the hippocampus remains unknown. To determine the effects of typical antipsychotic drugs on levels of synaptophysin and SNAP-25 in the hippocampus, rats were treated with chlorpromazine, haloperidol or trifluoperazine for 21 d. Quantitative immunohistochemistry was used to measure immunoreactivity within the trisynaptic circuit of the hippocampus. Trifluoperazine decreased synaptophysin within the Schaffer collateral region of the radiatum lacunosum in CA1, while haloperidol and chlorpromazine increased SNAP-25 throughout the trisynaptic pathway of the hippocampus, with strongest effects in the mossy fibre region of CA3. These results indicate that presynaptic proteins represent a potential molecular substrate for the effects of antipsychotic drugs on hippocampal synaptic connectivity.
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PMID:Selective effects of typical antipsychotic drugs on SNAP-25 and synaptophysin in the hippocampal trisynaptic pathway. 1631 83

Recent clinical studies have suggested that treatment with atypical antipsychotic drugs, such as olanzapine, may slow progressive changes in brain structure in patients with schizophrenia. To investigate the possible neural basis of this effect, we sought to determine whether treatment with olanzapine would inhibit the loss of hippocampal neurons associated with the administration of the excitotoxin, kainic acid, in neonatal rats. At post-natal day 7 (P7), rats were exposed to kainic acid via intracerebroventricular administration. Neuronal loss within the CA2 and CA3 subfields of the hippocampus and neurogenesis within the dentate gyrus of the hippocampus were then assessed at P14 by Fluoro-Jade B and BrdU labeling, respectively. Daily doses of olanzapine (2, 6, or 12 mg/day), haloperidol (1.2 mg/kg), melatonin (10 mg/kg), or saline were administered between P7 and P14. Melatonin is an anti-oxidant drug and was included in this study as a positive control, since it has been observed to have neuroprotective effects in a variety of animal models. The highest dose of olanzapine and melatonin, but not haloperidol, ameliorated the hippocampal neuronal loss triggered by kainic acid administration. However, drug administration did not have a significant effect on the rate of neurogenesis. These results suggest that olanzapine has neuroprotective effects in a rat model of neurodevelopmental insult, and may be relevant to the observed effects of atypical antipsychotic drugs on brain structure in patients with schizophrenia.
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PMID:Neuroprotective effects of olanzapine in a rat model of neurodevelopmental injury. 1652 22

In an attempt to model neurodevelopmental defects that may contribute to the outbreak of schizophrenia after adolescence, the present study examined the effects of prenatal interventions in rats, including injections of kainic acid, on motor, cognitive and social behaviour, which was assessed repeatedly between PDs 56-62 (week 8) and 168-174 (week 24), as well as on hippocampal morphology. As compared to untreated controls (n=5-9), the offspring (n=12 or 16) of treated mothers exhibited shorter latencies to leave a dark box and enter an illuminated field on weeks 12, 16 and 20, a higher number of perseverations in a T-maze alternation task on weeks 16 and 20, longer nose contacts with strange and familiar partners in a social interaction test on weeks 12 and 16 and lower weight gains over the course of testing. They also had shorter pyramidal cells in hippocampal area CA3. Thus, the prenatally treated offspring showed certain alterations in their brains and behaviour that resembled the human condition of schizophrenia (e.g., changes at cell level in the hippocampus, perseverative behaviour, lower weight gains), although others (e.g., increased social contacts) did not.
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PMID:Behavioral and hippocampal changes after prenatal invasive interventions with possible relevance to schizophrenia. 1680 17

Variations in the gene encoding the novel protein dysbindin-1 (DTNBP1) are among the most commonly reported genetic variations associated with schizophrenia. Recent studies show that those variations are also associated with cognitive functioning in carriers with and without psychiatric diagnoses, suggesting a general role for dysbindin-1 in cognition. Such a role could stem from the protein's known ability to affect neuronal glutamate release. How dysbindin-1 might affect glutamate release nevertheless remains unknown without the discovery of the protein's neuronal binding partners and its subcellular locus of action. We demonstrate here that snapin is a binding partner of dysbindin-1 in vitro and in the brain. Tissue fractionation of whole mouse brains and human hippocampal formations revealed that both dysbindin-1 and snapin are concentrated in tissue enriched in synaptic vesicle membranes and less commonly in postsynaptic densities. It is not detected in presynaptic tissue fractions lacking synaptic vesicles. Consistent with that finding, immunoelectron microscopy showed that dysbindin-1 is located in (i) synaptic vesicles of axospinous terminals in the dentate gyrus inner molecular layer and CA1 stratum radiatum and in (ii) postsynaptic densities and microtubules of dentate hilus neurons and CA1 pyramidal cells. The labeled synapses are often asymmetric with thick postsynaptic densities suggestive of glutamatergic synapses, which are likely to be derived from dentate mossy cells and CA3 pyramidal cells. The function of dysbindin-1 in presynaptic, postsynaptic and microtubule locations may all be related to known functions of snapin.
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PMID:Dysbindin-1 is a synaptic and microtubular protein that binds brain snapin. 1698 Mar 28

The negative symptoms of schizophrenia are reverted by treatment with glycine or other agonists of the glycine-B site which facilitate NMDA receptor function. On the other hand, there are experimental observations showing that exogenous application of glycine (0.5-10mM) results in a long-lasting potentiation of glutamatergic synaptic transmission (LTP-GLY). The characterization of the mechanisms underlying LTP-GLY could be useful to develop new therapies for schizophrenia. The main goal of this work is to deepen the understanding of this potentiation phenomenon. The present study demonstrates in rat hippocampal slices that superfusion of glycine 1mM during 30 min produces a potentiation of excitatory postsynaptic potentials in CA3-CA1 pathway lasting at least 1h. Glycine application does not modify neither presynaptic fiber volley nor paired-pulse facilitation of synaptic potentials. This LTP-GLY is independent of both strychnine-sensitive glycine receptors and nifedipine-sensitive calcium channels. Interestingly, LTP-GLY is not inhibited but strengthened by NMDA receptors antagonists such as AP-5 or MK-801. In contrast, LTP-GLY is partially or totally blocked with the antagonists of glycine transporter GLYT1, sarcosine or ALX-5407, respectively. These results indicate that LTP-GLY requires the activation of GLYT1, a glycine transporter co-localized and associated to NMDA receptors. In addition, the fact that NMDA receptor inhibition increases LTP-GLY magnitude, opens the possibility that these receptors could have a negative control on GLYT1 activity.
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PMID:Glycine-induced long-term synaptic potentiation is mediated by the glycine transporter GLYT1. 1746 77

Calcium (Ca(2+)) release from intracellular stores plays a crucial role in many cellular functions in the brain. These intracellular signals have been shown to be transmitted within and between cells. We report a non-uniform distribution of proteins essential for Ca(2+) signaling in acutely prepared brain slice preparations and organotypic slice cultures, both made from rat hippocampus. The Type I inositol-1,4,5 trisphosphate receptor (InsP(3)R1) is the main InsP(3)R subtype in neurons. Immunohistochemistry experiments showed a prominent expression of InsP(3)R1 in the CA1 region of the hippocampus whereas the CA3 region and dentate gyrus (DG) showed only moderate immunoreactivity. In contrast, chromogranin B (CGB), a protein binding to the InsP(3)R1 on the luminal side of the endoplasmic reticular membrane was enriched in the CA3 region whereas DG and the CA1 region showed only faint CGB signals. The neuronal kinases leading to the formation of inositol-1,4,5 trisphosphate (InsP(3)), phosphatidylinositol-4-kinase (PI4K), and phosphatidylinositol-4-phosphate-5-kinase (PIPK), showed strong immunoreactivity throughout all hippocampal cell fields with differences in the subcellular distribution. Moreover, a distinct band of strong CGB and PIPK immunoreactivity was observed in the CA3 region that coincides with the mossy fiber tract (stratum lucidum). These data show differential expression of the components of the signaling toolkit leading to InsP(3)-mediated Ca(2+) release in cells of the hippocampus. The regulation of these differences may play an important role in various neuropathologic conditions such as Alzheimer's disease, epilepsy, or schizophrenia.
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PMID:Inositol 1,4,5 trisphosphate receptor and chromogranin B are concentrated in different regions of the hippocampus. 1747 56

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