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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the search for the biological causes of schizophrenia and bipolar disorder, glutamate neurotransmission has emerged as one of a number of candidate processes and pathways where underlying gene deficits may be present. The analysis of chromosomal rearrangements in individuals diagnosed with neuropsychiatric disorders is an established route to candidate gene identification in both Mendelian and complex disorders. Here we describe a set of genes disrupted by, or proximal to, chromosomal breakpoints (2p12, 2q31.3, 2q21.2, 11q23.3 and 11q24.2) in a patient where chronic schizophrenia coexists with mild learning disability (US:
mental retardation
). Of these disrupted genes, the most promising candidate is a member of the kainate-type ionotropic glutamate receptor family,
GRIK4
(KA1). A subsequent systematic case-control association study on
GRIK4
assessed its contribution to psychiatric illness in the karyotypically normal population. This identified two discrete regions of disease risk within the
GRIK4
locus: three single single nucleotide polymorphism (SNP) markers with a corresponding underlying haplotype associated with susceptibility to schizophrenia (P=0.0005, odds ratio (OR) of 1.453, 95% CI 1.182-1.787) and two single SNP markers and a haplotype associated with a protective effect against bipolar disorder (P=0.0002, OR of 0.624, 95% CI 0.485-0.802). After permutation analysis to correct for multiple testing, schizophrenia and bipolar disorder haplotypes remained significant (P=0.0430, s.e. 0.0064 and P=0.0190, s.e. 0.0043, respectively). We propose that these convergent cytogenetic and genetic findings provide molecular evidence for common aetiologies for different psychiatric conditions and further support the 'glutamate hypothesis' of psychotic illness.
...
PMID:Cytogenetic and genetic evidence supports a role for the kainate-type glutamate receptor gene, GRIK4, in schizophrenia and bipolar disorder. 1681 33
Underactivity of the glutamatergic system is an attractive model for the pathophysiology of several major mental illnesses. We previously described a chromosome abnormality disrupting the kainate class ionotropic glutamate receptor gene,
GRIK4
/KA1, in an individual with schizophrenia and learning disability (
mental retardation
). We also demonstrated in a case-control study that two physically separated haplotypes within this gene were significantly associated with increased risk of schizophrenia and decreased risk of bipolar disorder, respectively. The latter protective haplotype was located at the 3' end of the gene. We now report the identification from carriers of the protective haplotype of a deletion variant within the 3' untranslated region of the gene. The deletion allele also was found to be negatively associated with bipolar disorder in both initial (P = 0.00000019) and replication (P = 0.0107) case-control studies. Expression studies indicated that deletion-carrying mRNA transcripts were relatively more abundant. We postulate that this may be a direct consequence of the differences in the RNA secondary structures predicted for the insertion and deletion alleles. These data suggest a mechanism whereby the genetic protective effect is mediated through increased kainate receptor expression.
...
PMID:A common variant in the 3'UTR of the GRIK4 glutamate receptor gene affects transcript abundance and protects against bipolar disorder. 1882 90
Several avenues of investigation through which the 'labyrinths' of schizopsychotic diagnosis may be examined, are offered by the consideration of the 'beacons' of symptom-profiles and biomarkers. Neurodevelopmental issues and risk assessment, neurocognitive factors of predictive necessity, supersensitivity in neurotransmitter systems, the implications of prodromal expressions of the disorder, functional dysconnectivity arising from prefrontal to diverse regional patterns and circuits with a neurodevelopmental origin, and heritable gene characteristics are viewed against the backdrop of the schizophrenia spectrum disorders. The associations between adolescent-adult use of cannabis, on the one hand, and, alternatively, the prevalence of chromosomal abnormalities, e.g.,
GRIK4
and NPAS3, and
mental retardation
, on the other hand, with the symptom-profiles of schizopsychosis provide further evidence of emerging biomarkers of biological inheritance factors. The involvement of dopamine D1 and D2 receptors, particularly in prefrontal region, with regard to functional integrity of cognitive systems is reviewed. It would appear that considerations of these disorders imply that one essential hub around which much of the neuropathology revolves may be observed in the various expressions of the cognitive and structural insufficiency.
...
PMID:Schizopsychotic symptom-profiles and biomarkers: beacons in diagnostic labyrinths. 1907 16
Genetic factors contribute to schizophrenia and bipolar disorder, and linkage and association studies have been successful in identifying several candidate genes. However these genes explain only a very small part of the total population risk and the psychoses appear to be very heterogeneous with several models of genetic inheritance relevant to different groups of patients, including some cases caused by multiple common genetic variants, while others are single gene disorders. Studying chromosomal abnormalities is a useful strategy for identifying genes in illness, and patients with both
mental retardation
and psychosis form a special group where large chromosomal abnormalities detected by routine cytogenetic analysis are more prevalent than in patients with schizophrenia or bipolar disorder alone, or in the general population. Studying these patients provides valuable opportunities to identify genes contributing to psychoses. This review of the literature on large chromosomal rearrangements in patients with
mental retardation
and psychotic illness illustrates how schizophrenia and bipolar phenotypes are associated with a large number of different chromosomal disruptions. Recent genome wide association studies have identified an excess of small chromosomal deletions and duplications in schizophrenia, adding further support to the importance of chromosomal structural variation in psychotic illness. The genes
GRIK4
and NPAS3, each associated with psychosis in patients with
mental retardation
are discussed to illustrate the value of rare cytogenetic events as a means to signpost neurobiological pathways of general importance for illness in the wider population.
...
PMID:Chromosome abnormalities, mental retardation and the search for genes in bipolar disorder and schizophrenia. 1907 19
To determine the phenotypic significance of copy number changes (CNCs) in the human genome, we performed genome-wide segmental aneuploidy profiling by BAC-based array-CGH of 278 unrelated patients with multiple congenital abnormalities and
mental retardation
(MCAMR) and in 48 unaffected family members. In 20 patients, we found de novo CNCs composed of multiple consecutive probes. Of the 125 probes making up these probably pathogenic CNCs, 14 were also found as single CNCs in other patients and 5 in healthy individuals. Thus, these CNCs are not by themselves pathogenic. Almost one out of five patients and almost one out of six healthy individuals in our study cohort carried a gain or a loss for any one of the recently discovered microdeletion/microduplication loci, whereas seven patients and one healthy individual showed losses or gains for at least two different loci. The pathogenic burden resulting from these CNCs may be limited as they were found with similar frequencies among patients and healthy individuals (P=0.165; Fischer's exact test), and several individuals showed CNCs at multiple loci. CNCs occurring specifically in our study cohort were enriched for components of the glutamate receptor family (GRIA2, GRIA4, GRIK2 and
GRIK4
) and genes encoding proteins involved in guiding cell localization during development (ATP1A2, GIRK3, GRIA2, KCNJ3, KCNJ10, KCNK17 and KCNK5). This indicates that disease cohort-specific compilations of CNCs may aid in identifying loci, genes and biological processes that contribute to the phenotype of patients.
...
PMID:Recurrent copy number changes in mentally retarded children harbour genes involved in cellular localization and the glutamate receptor complex. 1962 14
