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)

Dysbindin-1 (dystrobrevin binding protein-1) has been reported as a candidate gene associated with schizophrenia. Dysbindin-1 mRNA and protein levels are significantly reduced in the prefrontal cortex and hippocampus of schizophrenia subjects. To understand the in-vivo functions of dysbindin-1, we studied schizophrenia relevant behaviors in adult male Sandy homozygous (sdy/sdy) and heterozygous (sdy/+) mice that have a natural mutation in dysbindin-1 gene (on a DBA/2J background) resulting in loss of protein expression. Spontaneous locomotor activity of sdy/sdy and sdy/+ mice in novel environment was not significantly different from DBA/2J controls. However, on repeated testing in the same environment for 7 days, sdy/sdy mice, in contrast to DBA/2J controls showed a lack of locomotor habituation. Locomotor activating effect of a low dose of d-amphetamine (2.5 mg/kg i.p.), a behavioral measure of mesolimbic dopamine activity, was significantly reduced in the mutant mice. Interestingly, sdy/sdy mice showed enhanced locomotor sensitization to repeated five daily injection of amphetamine. Possible cognitive impairment in Sandy mutants was revealed in novel object recognition test as sdy/sdy and sdy/+ mice spent significantly less time exploring novel objects compared to DBA/2J. Sdy/sdy mice also showed deficits in emotionally motivated learning and memory showing greater freezing response to auditory conditioned stimulus (CS) in fear conditioning paradigm. In thermal nociceptive test, the latency of paw withdrawal in sdy/sdy and sdy/+ animals was significantly higher compared to DBA/2J indicating hypoalgesia in the mutants. Taken together, these data suggest that dysbindin-1 gene deficiency leads to significant changes in cognition and altered responses to psychostimulants.
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PMID:Behavioral characterization of dysbindin-1 deficient sandy mice. 1898 10

Dysbindin gene (DTNBP1) has been consistently reported to be associated with schizophrenia. However data from East Asian population has been sparse and inconsistent till today. This study tried to replicate the genetic association of DTNBP1 with schizophrenia in a large Korean sample, as well as analyzing the association of DTNBP1 with clinical variables. Nine hundred and eight (908) patients with schizophrenia and 601 controls were investigated. The high-throughput genotyping method using pyrosequencer (Biotage AB, Sweden) was used for genotyping 4 SNPs (rs3213207, rs1011313, rs760761, and rs2619522). Haplotype analyses revealed a significant association with schizophrenia (P < 0.0001) with the haplotypes A-C-C-C and A-C-T-A having an eminent protective effect toward schizophrenia. The major contribution to the difference in the haplotype distribution between patients and the controls was the rs760761 (C/T) and rs2619522 (A/C) haplotypes (P < 0.0001). No association of DTNBP1 with other clinical variables was found. In conclusion, the present study suggests a possible protective effect of rare DTNBP1 variants in schizophrenia, although subsequent studies in different ethnic groups are warranted.
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PMID:Dysbindin gene (DTNBP1) and schizophrenia in Korean population. 1925 39

Genetic factors are important in the etiology of schizophrenia. Recent studies have revealed the association between genetic variation of Dysbindin (DTNBP1) and schizophrenia. Dysbindin is one of the essential components of the biogenesis of lysosome-related organelles complex 1 (BLOC-1). BLOC-1 physically interacts with the adaptor protein (AP)-3 complex, which is essential for vesicle or protein sorting. However, it remains largely unknown how BLOC-1 interacts with the AP-3 complex. To investigate the binding mode of BLOC-1 and the AP-3 complex, we examined the relation between Dysbindin and the AP-3 complex and found that Dysbindin formed a complex with the AP-3 complex through the direct binding to its mu subunit. Dysbindin partially co-localized with the AP-3 complex in CA1 and CA3 of mouse hippocampus, and at presynaptic terminals and axonal growth cones of cultured hippocampal neurons. Suppression of Dysbindin results in the reduction of presynaptic protein expression and glutamate release. Thus, Dysbindin appears to participate in the exocytosis or sorting of the synaptic vesicle via direct interaction with the AP-3 complex.
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PMID:Direct interaction of Dysbindin with the AP-3 complex via its mu subunit. 1942 85

Behavioral genetic studies of humans have associated variation in the DTNBP1 gene with schizophrenia and its cognitive deficit phenotypes. The protein coded for by DTNBP1, dysbindin, is expressed within forebrain glutamatergic neurons, in which it interacts with proteins involved in vesicular trafficking and exocytosis. In order to further delineate the cellular, physiological, and behavioral phenotypes associated with reduced dysbindin expression, we conducted studies in mice carrying a null mutation within the dtnbp1 gene. Dysbindin mutants showed impairments of spatial working memory compared with wild-type controls; heterozygous mice showed intermediate levels of cognitive dysfunction. Deep-layer pyramidal neurons recorded in the prefrontal cortex of mutant mice showed reductions in paired-pulse facilitation, and evoked and miniature excitatory post-synaptic currents, indicating a difference in the function of pre-synaptic glutamatergic terminals as well as elevated spike thresholds. Taken together, these data indicate that dysbindin potently regulates excitatory transmission in the prefrontal cortex, potentially through a pre-synaptic mechanism, and consequently modulates cognitive functions depending on this brain region, providing new insights into the molecular mechanisms underlying cortical dysfunction in schizophrenia.
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PMID:Dysbindin modulates prefrontal cortical glutamatergic circuits and working memory function in mice. 1964 86

Dysbindin has been implicated in the pathogenesis of schizophrenia, but little is known about how dysbindin affects neuronal function in the circuitry underlying psychosis and related behaviors. Using a dysbindin knockout line (dys(-/-)) derived from the natural dysbindin mutant Sandy mice, we have explored the role of dysbindin in dopamine signaling and neuronal function in the prefrontal cortex (PFC). Combined cell imaging and biochemical experiments revealed a robust increase in the dopamine receptor D2, but not D1, on cell surface of neurons from dys(-/-) cortex. This was due to an enhanced recycling and insertion, rather than reduced endocytosis, of D2. Disruption of dysbindin gene resulted in a marked decrease in the excitability of fast-spiking (FS) GABAergic interneurons in both PFC and striatum. Dys(-/-) mice also exhibited a decreased inhibitory input to pyramidal neurons in layer V of PFC. The increased D2 signaling in dys(-/-) FS interneurons was associated with a more pronounced increase in neuronal firing in response to D2 agonist, compared to that in wild-type interneurons. Taken together, these results suggest that dysbindin regulates PFC function by facilitating D2-mediated modulation of GABAergic function.
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PMID:Role of dysbindin in dopamine receptor trafficking and cortical GABA function. 1988 32

Dystrobrevin binding protein-1 gene (DTNBP1), which encodes dysbindin protein, has been identified as a schizophrenia susceptibility gene. Dysbindin has been shown to contribute to the regulation of exocytosis and formation of synaptic vesicles. Although hypofrontality in schizophrenia underlies its pathophysiology, the molecular function of dysbindin in synaptic neurotransmission remains unclear. In the present study, we investigated depolarization-evoked dopamine (DA) and serotonin (5-HT) release in the prefrontal cortex (PFC) of sandy (sdy) mice, which have a deletion mutation in the gene encoding DTNBP1. In vivo microdialysis analysis revealed that extracellular DA levels in the PFC of wild-type mice were increased by 60mM KCl stimulation, and the KCl-evoked DA release was significantly decreased in sdy mice compared with wild-type mice. Extracellular 5-HT levels in the PFC of wild-type mice were also increased by 60mM KCl stimulation. The KCl-evoked 5-HT release did not differ between wild-type and sdy mice. There was no difference in basal levels of DA and 5-HT before the stimulation between two groups. Behavioral sensitization after repeated methamphetamine (METH) treatment was significantly reduced in sdy mice compared with wild-type mice whereas no difference was observed in METH-induced hyperlocomotion between two groups. These results suggest that dysbindin may have a role in the regulation of depolarization-evoked DA release in the PFC and in the development of behavioral sensitization induced by repeated METH treatment.
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PMID:Dysfunction of dopamine release in the prefrontal cortex of dysbindin deficient sandy mice: an in vivo microdialysis study. 2004 19

Dysbindin (DTNBP1) is a recently characterized protein that seems to be involved in the modulation of glutamatergic neurotransmission in the human brain, thereby influencing prefrontal cortex function and associated cognitive processes. While association, neuroanatomical and cellular studies indicate that DTNBP1 might be one of several susceptibility genes for schizophrenia, the effect of dysbindin on prefrontal brain function at an underlying neurophysiological level has not yet been explored for these patients. The NoGo-anteriorization (NGA) is a topographical event-related potential measure, which has been established as a valid neurophysiological marker of prefrontal brain function. In the present study, we investigated the influence of seven dysbindin gene variants on the NGA in a group of 44 schizophrenic patients. In line with our a priori hypothesis, one DTNBP1 polymorphism previously linked to schizophrenia (rs2619528) was found to be associated with changes in the NGA; however, the direction of this association directly contrasts with our previous findings in a healthy control sample. This differential impact of DTNBP1 gene variation on prefrontal functioning in schizophrenic patients vs. healthy controls is discussed in terms of abnormal glutamatergic baseline levels in patients suffering from schizophrenic illnesses. This is the first report on a role of DTNBP1 gene variation for prefrontal functioning at a basic neurophysiological level in schizophrenic patients. An impact on fundamental processes of cognitive response control may be one mechanism by which DTNBP1 gene variants via glutamatergic transmission contribute to the pathophysiology underlying schizophrenic illnesses.
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PMID:DTNBP1 (dysbindin) gene variants modulate prefrontal brain function in schizophrenic patients--support for the glutamate hypothesis of schizophrenias. 2018 Aug 62

Dysbindin-1 reductions appear to be common in dysfunctional brain areas of schizophrenia cases. In the absence of a dysbindin-1 knockout, sandy (sdy) mice provide our only means of studying the potential contribution of this protein to clinical features of schizophrenia in live animals. Our knowledge of sandy mice is reviewed here. These mice have a deletion mutation that arose spontaneously in DBA/2J mice in the gene encoding dysbindin-1 (Dtnbp1). This null protein mutation (Dtnbp1(sdy)) leads to an absence of dysbindin-1 in homozygotes, as well as reductions in several direct and indirect binding partners of dysbindin-1 that contribute to the protein assembly known as BLOC-1. Studies of sdy mice on the original DBA/2J background and on a C57BL/6J background indicate that the Dtnbp1(sdy) mutation does not affect viability, basic sensory or motor functions, or measures of anxiety and motivation. Such studies do indicate, however, that the mutation affects several biological functions, including adrenal neurosecretion and pre- and postsynaptic aspects of dopaminergic, glutamatergic, and GABAergic transmission. These effects and those on prepulse inhibition, social interaction, and diverse aspects of spatial memory suggest that homozygous sdy mice may model various features of schizophrenia.
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PMID:The sandy (sdy) mouse: a dysbindin-1 mutant relevant to schizophrenia research. 2030 21

There is a relatively high genetic heritability of schizophrenia as shown by family, twin and adoption studies. A large number of hypotheses on the causes of schizophrenia occurred over time. In this review we focus on genetic findings related to potential alterations of intracellular Ca-homeostasis in association with schizophrenia. First, we provide evidence for the NMDA/glutamatergic theory of schizophrenia including calcium processes. We mainly focus on genes including: DAO (D-amino acid oxidase), DAOA (D-amino acid oxidase activator), DTNBP1 (Dysbindin 1, dystrobrevin-binding protein 1), NRG1 (Neuregulin 1), ERBB4 (v-erb-a erythroblastic leukemia viral oncogene homolog 4, avian), NOS1 (nitric oxide synthase 1, neuronal) and NRGN (Neurogranin). Furthermore, a gene coding for a calcium channel subunit (CACNA1C: calcium channel, voltage-dependent, L type, alpha 1C subunit) is discussed in the light of schizophrenia whereas genetic findings related to alterations in the intracellular Ca-homeostasis associated specifically with dopaminergic and serotonergic neurotransmission in schizophrenia are not herein closer reviewed. Taken together there is converging evidence for the contribution of genes potentially related to alterations in intracellular Ca-homeostasis to the risk of schizophrenia. Replications and functional studies will hopefully provide further insight into these genetic variants and the underlying processes.
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PMID:Genetic findings in schizophrenia patients related to alterations in the intracellular Ca-homeostasis. 2060 Apr 64

The onset of schizophrenia symptoms typically occurs in young adulthood. It most commonly manifests as hallucinations, paranoid or bizarre delusions, or disorganized speech and thinking. Schizophrenia is often accompanied by social or occupational dysfunction. Recent genetic studies revealed several probable susceptibility genes for schizophrenia such as Neuregulin1, Dysbindin and Disrupted-in-Schizophrenia-1 (DISC1). DISC1 was originally identified as the sole gene that associated with a high inheritance of schizophrenia and other psychiatric illnesses in a large Scottish family. We here review the recent advance in understanding of pathophysiological functions of DISC1. [corrected]
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PMID:[Current perspective on the pathogenesis of schizophrenia from the viewpoint of risk factors such as DISC1 (corrected)]. 2066 47

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