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Query: UMLS:C0036341 (
schizophrenia
)
60,220
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Altered expression of Disrupted-In-
Schizophrenia
-1 (DISC1) and dysbindin (
DTNBP1
), susceptibility genes for
schizophrenia
, in schizophrenic brain has been reported; however, the possible effect of antipsychotics on the expression levels of these genes has not yet been studied. We measured the mRNA expression levels of these genes in frontal cortex and hippocampus of mice chronically treated with typical and atypical antipsychotics by a real-time quantitative RT-PCR method. We found that atypical antipsychotics, olanzapine and risperidone, in a clinically relevant dose increased DISC1 expression levels in frontal cortex, while a typical antipsychotic, haloperidol, did not. No significant effect on dysbindin expression levels was observed in either brain region. These data suggest that prior evidence of decreased expression of dysbindin in postmortem brain of schizophrenics is not likely to be a simple artifact of antemortem drug treatment. Our results also suggest a potential role of DISC1 in the therapeutic mechanisms of certain atypical antipsychotics.
...
PMID:Effect of antipsychotic drugs on DISC1 and dysbindin expression in mouse frontal cortex and hippocampus. 1646 16
Transcriptome profiling using DNA microarrays are data-driven approaches with the potential to uncover unanticipated relationships between gene expression alterations and psychiatric disorders. Studies to date have yielded both convergent and divergent findings. Differences may be explained, at least in part, by the use of a variety of microarray platforms and analytical approaches. Consistent findings across studies suggest, however, that important relationships may exist between altered gene expression and genetic susceptibility to psychiatric disorders. For example, GAD67, RGS4,
DTNBP1
, NRG1, and GABRAB2 show expression alterations in the postmortem brain of subjects with
schizophrenia
, and these genes have been also implicated as putative, heritable
schizophrenia
susceptibility genes. Thus, we propose that for some genes, altered expression in the postmortem human brain may have a dual origin: polymorphisms in the candidate genes themselves or upstream genetic-environmental factors that converge to alter their expression level. We hypothesize that certain gene products, which function as "molecular hubs," commonly show altered expression in psychiatric disorders and confer genetic susceptibility for one or more diseases. Microarray gene expression studies are ideally suited to reveal these putative disease-associated molecular hubs and to identify promising candidates for genetic association studies.
...
PMID:Critical appraisal of DNA microarrays in psychiatric genomics. 1661 96
After years of frustration, the search for genes impacting on
schizophrenia
is now undergoing some exciting developments. Several proposals of susceptibility genes have been able to be supported by replications. Thus, there are now at least three very strong candidates: the gene for dysbindin (
DTNBP1
), the gene for neuregulin-1 (NRG1), and a less well-understood gene locus, G72/G30, which are likely to influence manifestations of
schizophrenia
. Other "hot" candidates such as the disrupted-in-
schizophrenia
1 gene (DISC1) and the gene coding for protein kinase B (AKT1) might also prove to be susceptibility genes in the next future. The clinical implications of these findings are not yet fully visible. However, some first insights are possible: most of the genetic findings lack diagnostic specificity, and are also reproduced in bipolar disorder. Strong associations are also obtained on a symptomatic level, not only on a diagnostic level. The pathophysiological role of these hot candidate genes is currently under intensive study.
...
PMID:Clinical impact of recently detected susceptibility genes for schizophrenia. 1664 Jan 17
A wealth of evidence indicates that
schizophrenia
is heritable. However, the genetic mechanisms involved are poorly understood. Furthermore, it may be that genes conferring susceptibility interact with one another and with non-genetic factors to modulate risk status and/or the expression of symptoms. Genome-wide scanning and the mapping of several regions linked with risk for
schizophrenia
have led to the identification of several putative susceptibility genes including neuregulin-1 (NRG1), dysbindin (
DTNBP1
), regulator of G-protein signalling 4 (RGS4), catechol-o-methyltransferase (COMT), proline dehydrogenase (PRODH) and disrupted-in-
schizophrenia
1 (DISC1). Genetic animal models involving targeted mutation via gene knockout or transgenesis have the potential to inform on the role of a given susceptibility gene on the development and behaviour of the whole organism and on whether disruption of gene function is associated with
schizophrenia
-related structural and functional deficits. This review focuses on data regarding the behavioural phenotype of mice mutant for
schizophrenia
susceptibility genes identified by positional candidate analysis and the study of chromosomal abnormalities. We also consider methodological issues that are likely to influence phenotypic effects, as well as the limitations associated with existing molecular techniques.
...
PMID:Susceptibility genes for schizophrenia: characterisation of mutant mouse models at the level of phenotypic behaviour. 1678 99
Dysbindin (
DTNBP1
: dystrobrevin binding protein 1), located on 6p22.3, is a candidate susceptibility gene for
schizophrenia
. Several studies, mostly in Caucasians, have provided evidence for an association between
schizophrenia
and the gene, although no common polymorphism or haploytpe has been established. In Asian populations, two studies investigated a limited number of single nucleotide polymorphisms (SNPs) of dysbindin and observed support for the association. In the present study, we investigated 12 SNPs of dysbindin, including those examined in previous Asian studies, and the corresponding haplotypes in a Japanese people with
schizophrenia
. As a result, no significant difference was observed between patients and controls in allelic frequencies or genotypic distributions of the 12 SNPs. Permutation test however showed significant differences in frequencies of the estimated 10-marker haplotypes between patients and controls (global p = 0.006). The present study may provide further support for an association between dysbindin and
schizophrenia
in Asian populations. The results might be similar to a previous Asian study, but specific haplotypes suggested for the association differed between the studies. Studies with more markers and subjects may be required before firm conclusions can be reached.
...
PMID:Association study of the dysbindin (DTNBP1) gene in schizophrenia from the Japanese population. 1687 95
Numerous studies have reported association between variants in the dystrobrevin binding protein 1 (dysbindin) gene (
DTNBP1
) and
schizophrenia
. However, the pattern of results is complex and to date, no specific risk marker or haplotype has been consistently identified. The number of single nucleotide polymorphisms (SNPs) tested in these studies has ranged from 5 to 20. We attempted to replicate previous findings by testing 16 SNPs in samples of 41 Australian pedigrees, 194 Australian cases and 180 controls, and 197 Indian pedigrees. No globally significant evidence for association was observed in any sample, despite power calculations indicating sufficient power to replicate several previous findings. Possible explanations for our results include sample differences in background linkage disequilibrium and/or risk allele effect size, the presence of multiple risk alleles upon different haplotypes, or the presence of a single risk allele upon multiple haplotypes. Some previous associations may also represent false positives. Examination of Caucasian HapMap phase II genotype data spanning the
DTNBP1
region indicates upwards of 40 SNPs are required to satisfactorily assess all nonredundant variation within
DTNBP1
and its potential regulatory regions for association with
schizophrenia
. More comprehensive studies in multiple samples will be required to determine whether specific
DTNBP1
variants function as risk factors for
schizophrenia
.
...
PMID:Association study of the dystrobrevin-binding gene with schizophrenia in Australian and Indian samples. 1689 60
The dysbindin gene (
DTNBP1
) is located in chromosome 6p22.3, one of the regions of positive linkage for
schizophrenia
. A strong genetic association between
DTNBP1
and
schizophrenia
has been replicated through many recent studies. In particular, dysbindin protein has been found to play a role in the glutamate neural transmission in the brain. In this study, we attempted to replicate the previously reported positive association between
DTNBP1
and
schizophrenia
in the Korean population. Our sample included 194 patients with
schizophrenia
based on DSM-IV and 351 normal controls. We genotyped five SNPs including SNP A in promoter region of
DTNBP1
. The allele and genotype association were analyzed and the simulated haplotype was investigated as well. As the result, we could not find a significant association of
DTNBP1
with
schizophrenia
in this Korean sample. Additional analysis of the subgroup of
schizophrenia
having familial loading of major psychiatric disorders did not show association, either. In summary,
DTNBP1
is not likely to be a major susceptibility gene for
schizophrenia
in this Korean population. This result of no association also implies possible genetic heterogeneity of
schizophrenia
. Further studies with more dense SNPs of the whole gene sequence for various populations will be necessary to understand the genetic contribution of
DTNBP1
for the development of
schizophrenia
.
...
PMID:The dysbindin gene (DTNBP1) and schizophrenia: no support for an association in the Korean population. 1695 23
Dysbindin (
DTNBP1
) is a positional candidate gene for 6p22.3-linked
schizophrenia
(SZ). However, so far, no disease-causing alleles have been identified.
DTNBP1
is immediately adjacent to JARID2, a member of the ARID (AT-rich interaction domain) family of transcription modulators. We have previously suggested that proteins which bind to AT-rich domains could play a role in SZ pathogenesis. Consequently, we explored the possibility that JARID2 itself could be a candidate gene for 6p22.3-linked SZ. We used a case control design to analyze single nucleotide polymorphisms (SNPs) and insertion/deletion variants affecting AT-rich domains in both the
DTNBP1
and JARID2 genes. Three of the
DTNBP1
SNPs analyzed had previously been shown to be associated with SZ. We did not detect any significant difference in allele, genotype or haplotype distribution for any of these
DTNBP1
markers. However, we did detect a significant difference in allele distribution for a tetranucleotide repeat polymorphism in the JARID2 gene that affects an AT-rich domain. A significant increase in short alleles (less than 11 repeats) was found in patients with SZ (chi(2) = 7.02; P = 0.008). No other JARID2 marker displayed statistically significant allele and genotype distributions. Our findings suggest that JARID2 should be viewed as a candidate gene for 6p22.3-linked SZ.
...
PMID:Positive association of schizophrenia to JARID2 gene. 1696 65
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.
...
PMID:Dysbindin-1 is a synaptic and microtubular protein that binds brain snapin. 1698 Mar 28
DTNBP1
was first identified as a putative
schizophrenia
-susceptibility gene in Irish pedigrees, with a report of association to common genetic variation. Several replication studies have reported confirmation of an association to
DTNBP1
in independent European samples; however, reported risk alleles and haplotypes appear to differ between studies, and comparison among studies has been confounded because different marker sets were employed by each group. To facilitate evaluation of existing evidence of association and further work, we supplemented the extensive genotype data, available through the International HapMap Project (HapMap), about
DTNBP1
by specifically typing all associated single-nucleotide polymorphisms reported in each of the studies of the Centre d'Etude du Polymorphisme Humain (CEPH)-derived HapMap sample (CEU). Using this high-density reference map, we compared the putative disease-associated haplotype from each study and found that the association studies are inconsistent with regard to the identity of the disease-associated haplotype at
DTNBP1
. Specifically, all five "replication" studies define a positively associated haplotype that is different from the association originally reported. We further demonstrate that, in all six studies, the European-derived populations studied have haplotype patterns and frequencies that are consistent with HapMap CEU samples (and each other). Thus, it is unlikely that population differences are creating the inconsistency of the association studies. Evidence of association is, at present, equivocal and unsatisfactory. The new dense map of the region may be valuable in more-comprehensive follow-up studies.
...
PMID:Analysis of high-resolution HapMap of DTNBP1 (Dysbindin) suggests no consistency between reported common variant associations and schizophrenia. 1703 66
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