| GRIA3 |
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| 1 | | Ann. N. Y. Acad. Sci. 2003 Nov 1003: 22-35 |
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| PMID | 14684433 |
| Title | Genomics and variation of ionotropic glutamate receptors. |
| Abstract | Sequencing of the human, mouse, and rat genomes has enabled a comprehensive informatics approach to gene families. This approach is informative for identification of new members of gene families, for cross-species sequence conservation related to functional conservation, for within-species diversity related to functional variation, and for historical effects of selection. This genome informatics approach also focuses our attention on genes whose genomic locations coincide with linkages to phenotypes. We are identifying ionotropic glutamate receptor (IGR) sequence variation by resequencing technologies, including denaturing high-performance liquid chromoatography (dHPLC), for screening and direct sequencing, and by information mining of public (e.g., dbSNP and ENSEMBL) and private (i.e., Celera Discovery System) sequence databases. Each of the 16 known IGRs is represented in these databases, their positions on a canonical physical map (for example, the Celera map) are established, and comparison to mouse and rat sequences has been performed, revealing substantial conservation of these genes, which are located on different chromosomes but found within syntenic groups of genes. A collection of 38 missense variants were identified by the informatics and resequencing approaches in several of these receptor genes, including GRIN2B, GRIN3B, GRIA2, GRIA3, and GRIK1. This represents only a fraction of the sequence variation across these genes, but, in fact, these may constitute a large fraction of the common polymorphisms at these genes, and these polymorphisms are a starting point for understanding the role of these receptors in neurogenetic variation. Genetically influenced human neurobehavioral phenotypes that are likely to be linked to IGR genetic variants include addictions, anxiety/dysphoria disorders, post-brain injury behavioral disorders, schizophrenia, epilepsy, pain perception, learning, and cognition. Thus, the effects of glutamate receptor variation may be protean, and the task of relating variation to behavior difficult. However, functional variants of (1) catechol-O-methyltransferase, (2) serotonin transporter, and (3) brain-derived neurotrophic factor have recently been linked both to behavioral differences and to intermediate phenotypes, suggesting a pathway by which functional variation at IGRs can be tied to an etiologically complex phenotype. |
| SCZ Keywords | schizophrenia,schizophrenic |
| 2 | | Schizophr. Res. 2007 Feb 90: 28-40 |
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| PMID | 17141476 |
| Title | AMPA receptor subunit and splice variant expression in the DLPFC of schizophrenic subjects and rhesus monkeys chronically administered antipsychotic drugs. |
| Abstract | Disturbances in glutamate neurotransmission are thought to be one of the major contributing factors to the pathophysiology of schizophrenia. In the dorsolateral prefrontal cortex (DLPFC), glutamate neurotransmission is largely mediated by AMPA receptors. Data regarding alterations of subunit expression in the brains of patients with schizophrenia remain equivocal. This may be due to differences in technique sensitivity, endogenous control selection for normalization of data, or effect of antipsychotic drug treatment in different cohorts of schizophrenia. This study attempted to address these issues by examining the expression of AMPA receptor subunits and splice variants in the DLPFC of two schizophrenia cohorts using quantitative PCR (qPCR) with normalization to the geometric mean of multiple endogenous controls. In addition, a non-human primate model of chronic antipsychotic drug administration was used to determine the extent to which the transcript expression may be altered by antipsychotic drug treatment in the primate DLPFC. AMPA receptor subunits and flip and/or flop splice variants were not significantly different in the DLPFC of schizophrenia subjects versus controls in either of the two cohorts. However, in rhesus monkeys chronically treated with antipsychotic drugs, clozapine treatment significantly decreased GRIA1 and increased GRIA3 mRNA expression, while both clozapine and haloperidol increased the expression of GRIA2 subunit mRNA. Expression of AMPA receptor splice variants was not significantly altered by antipsychotic drug administration. This is the first study to show that AMPA receptor subunit mRNAs in the primate DLPFC are altered by antipsychotic drug administration. Antipsychotic drug-induced alterations may help explain differences in human post-mortem studies regarding AMPA receptor subunit expression and provide some insight into the mechanism of action of antipsychotic drugs. |
| SCZ Keywords | schizophrenia,schizophrenic |
| 3 | | Schizophr. Res. 2007 Feb 90: 28-40 |
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| PMID | 17141476 |
| Title | AMPA receptor subunit and splice variant expression in the DLPFC of schizophrenic subjects and rhesus monkeys chronically administered antipsychotic drugs. |
| Abstract | Disturbances in glutamate neurotransmission are thought to be one of the major contributing factors to the pathophysiology of schizophrenia. In the dorsolateral prefrontal cortex (DLPFC), glutamate neurotransmission is largely mediated by AMPA receptors. Data regarding alterations of subunit expression in the brains of patients with schizophrenia remain equivocal. This may be due to differences in technique sensitivity, endogenous control selection for normalization of data, or effect of antipsychotic drug treatment in different cohorts of schizophrenia. This study attempted to address these issues by examining the expression of AMPA receptor subunits and splice variants in the DLPFC of two schizophrenia cohorts using quantitative PCR (qPCR) with normalization to the geometric mean of multiple endogenous controls. In addition, a non-human primate model of chronic antipsychotic drug administration was used to determine the extent to which the transcript expression may be altered by antipsychotic drug treatment in the primate DLPFC. AMPA receptor subunits and flip and/or flop splice variants were not significantly different in the DLPFC of schizophrenia subjects versus controls in either of the two cohorts. However, in rhesus monkeys chronically treated with antipsychotic drugs, clozapine treatment significantly decreased GRIA1 and increased GRIA3 mRNA expression, while both clozapine and haloperidol increased the expression of GRIA2 subunit mRNA. Expression of AMPA receptor splice variants was not significantly altered by antipsychotic drug administration. This is the first study to show that AMPA receptor subunit mRNAs in the primate DLPFC are altered by antipsychotic drug administration. Antipsychotic drug-induced alterations may help explain differences in human post-mortem studies regarding AMPA receptor subunit expression and provide some insight into the mechanism of action of antipsychotic drugs. |
| SCZ Keywords | schizophrenia,schizophrenic |
| 4 | | Am. J. Med. Genet. B Neuropsychiatr. Genet. 2008 Sep 147B: 745-53 |
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| PMID | 18163426 |
| Title | Study on GRIA2, GRIA3 and GRIA4 genes highlights a positive association between schizophrenia and GRIA3 in female patients. |
| Abstract | Impairment of glutamatergic neurotransmission is one of the major hypotheses proposed to explain the neurobiology of schizophrenia. Therefore, the genes involved in the glutamate neurotransmitter system could be considered potential candidate genes for schizophrenia susceptibility. A systematic study on alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid (AMPA) receptor genes has been carried out and the results obtained from the analysis on GRIA2, GRIA3 and GRIA4 are reported. No evidence of association with schizophrenia was found for the GRIA2 and GRIA4 genes; strong evidence of association with schizophrenia was found for GRIA3. This X-linked gene showed a different behavior in the two genders; a positive association with schizophrenia was observed among females but not in males. Female carriers of rs1034428 A allele were found to have a 2.19-fold higher risk of developing schizophrenia compared to non-carriers and 3.28-fold higher risk for developing a non-paranoid phenotype. The analysis at the haplotype level showed that susceptibility to schizophrenia was associated with the specific haplotype rs989638-rs1034428-rs2227098 CAC (P = 0.0008). We conclude that, of the three AMPA genes analyzed here, only GRIA3 seems to be involved in the pathogenesis of schizophrenia, but only in females. |
| SCZ Keywords | schizophrenia,schizophrenic |
| 5 | | Pharmacogenet. Genomics 2011 Apr 21: 206-16 |
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| PMID | 20859245 |
| Title | Glutamatergic gene variants impact the clinical profile of efficacy and side effects of haloperidol. |
| Abstract | The glutamatergic system may be relevant to the pathophysiology of psychosis and to the effects of antipsychotic treatments.
We investigated a set of 62 SNPs located in genes coding for subunits of glutamatergic receptors (GAD1, GRIA1, GRIA3, GRIA4, GRID2, GRIK1, GRIK2, GRIK3, GRIK4, GRIN2B, GRM1 and GRM4), and the transporter of glycine (SLC6A5), as modulators of the effects of haloperidol.
We studied a sample of 101 acutely ill psychotic patients. We then validated our result in two independent samples from Slovenia (n=71 and n=118) of schizophrenic patients treated with antipsychotics. We both investigated the antipsychotic effect (Positive and Negative Syndrome Scale) and motor side effect (Extrapyramidal Symptom Rating Scale) at baseline and days 3, 7, 14, 21 and 28. SLC6A5 variant (rs2298826) was found to be associated with a rapid rise of motor side effects at the beginning of the treatment (repeated measures of analysis of variance, P=0.0002), followed by a subsequent adaptation, probably dependent on haloperidol doses down titration. A specific effect was noted for dyskinetic symptoms. Haplotype analysis strengthened the relevance of SLC6A5: the C-A-C haplotype (rs1443548, rs883377, rs1945771) was found to be associated with higher Extrapyramidal symptom rating scale scores (overall P=0.01, haplotype P=0.000001). We successfully replicated this finding in the two independent samples from Slovenia.
This result further stresses the relevance of the glutamatergic system in modulating the effects of haloperidol treatment, especially with regards to motor side effects. |
| SCZ Keywords | schizophrenia,schizophrenic |
| 6 | |
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| PMID | 23149219 |
| Title | Evaluation of hypermethylation and expression pattern of GMR2, GMR5, GMR8, and GRIA3 in patients with schizophrenia. |
| Abstract | Emerging evidence suggests a role of dysfunction of glutamatergic neurotransmission and its receptors in the pathophysiology of schizophrenia (SCZ). This study evaluated whether the promoter hypermethylation and RNA expression pattern of GMR2 (glutamate metabotropic receptor), GMR5, GMR8, and GRIA3 (glutamate receptor, ionotropic alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid) are associated with the risk of schizophrenia between schizophrenia patients and healthy controls.
Methylation-specific polymerase chain reaction (MS-PCR) was used to estimate the promoter hypermethylation of GMR2, GMR5, GMR8, and GRIA3 genes on 81 isolated genomic DNA samples from the peripheral blood of individuals with schizophrenia and 71 healthy control subjects. In addition, real-time reverse transcription-PCR was used to estimate mRNA levels in 34 blood samples of healthy controls and cases.
The methylation of GRM2 and GRM5 greatly decreased the risk of schizophrenia in comparison to the reference unmethylated pattern [OR=0.38, 95% CI; 0.144-1.035, p=0.05; OR=0.06, 95% CI; 0.007-0.54.10, p=0.01], respectively. The methylation of GRIA3 highly increased the risk of schizophrenia, but non-significant (OR=2.3, 95% CI; 0.51-10.42). The outcomes of the expression analysis revealed a statistically significant difference between the cases (n=17) and healthy controls (n=17) regarding the relative gene expression of GRM2, GRM5, and GRIA3 (p=0.0001).
To the best of our knowledge, this is the first evidence showing that the promoter methylation of the GMR2 and GMR5 genes greatly decreased the risk of schizophrenia, and the expression level of the GRM2, GRM5, and GRIA3 genes increased significantly in patients in comparison to healthy controls. These outcomes suggest that there is a need for more attention to be paid to the effect of epigenetic variations in the development of SCZ in further investigations. |
| SCZ Keywords | schizophrenia,schizophrenic |
| 7 | | Biol. Psychiatry 2015 Jun 77: 959-68 |
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| PMID | 25433904 |
| Title | Altered glutamate protein co-expression network topology linked to spine loss in the auditory cortex of schizophrenia. |
| Abstract | Impaired glutamatergic signaling is believed to underlie auditory cortex pyramidal neuron dendritic spine loss and auditory symptoms in schizophrenia. Many schizophrenia risk loci converge on the synaptic glutamate signaling network. We therefore hypothesized that alterations in glutamate signaling protein expression and co-expression network features are present in schizophrenia.
Gray matter homogenates were prepared from auditory cortex gray matter of 22 schizophrenia and 23 matched control subjects, a subset of whom had been previously assessed for dendritic spine density. One hundred fifty-five selected synaptic proteins were quantified by targeted mass spectrometry. Protein co-expression networks were constructed using weighted gene co-expression network analysis.
Proteins with evidence for altered expression in schizophrenia were significantly enriched for glutamate signaling pathway proteins (GRIA4, GRIA3, ATP1A3, and GNAQ). Synaptic protein co-expression was significantly decreased in schizophrenia with the exception of a small group of postsynaptic density proteins, whose co-expression increased and inversely correlated with spine density in schizophrenia subjects.
We observed alterations in the expression of glutamate signaling pathway proteins. Among these, the novel observation of reduced ATP1A3 expression is supported by strong genetic evidence indicating it may contribute to psychosis and cognitive impairment phenotypes. The observations of altered protein network topology further highlight the complexity of glutamate signaling network pathology in schizophrenia and provide a framework for evaluating future experiments to model the contribution of genetic risk to disease pathology. |
| SCZ Keywords | schizophrenia,schizophrenic |
| 8 | | Mol. Pharmacol. 2015 Jul 88: 203-17 |
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| PMID | 25904555 |
| Title | Ionotropic GABA and Glutamate Receptor Mutations and Human Neurologic Diseases. |
| Abstract | The advent of whole exome/genome sequencing and the technology-driven reduction in the cost of next-generation sequencing as well as the introduction of diagnostic-targeted sequencing chips have resulted in an unprecedented volume of data directly linking patient genomic variability to disorders of the brain. This information has the potential to transform our understanding of neurologic disorders by improving diagnoses, illuminating the molecular heterogeneity underlying diseases, and identifying new targets for therapeutic treatment. There is a strong history of mutations in GABA receptor genes being involved in neurologic diseases, particularly the epilepsies. In addition, a substantial number of variants and mutations have been found in GABA receptor genes in patients with autism, schizophrenia, and addiction, suggesting potential links between the GABA receptors and these conditions. A new and unexpected outcome from sequencing efforts has been the surprising number of mutations found in glutamate receptor subunits, with the GRIN2A gene encoding the GluN2A N-methyl-d-aspartate receptor subunit being most often affected. These mutations are associated with multiple neurologic conditions, for which seizure disorders comprise the largest group. The GluN2A subunit appears to be a locus for epilepsy, which holds important therapeutic implications. Virtually all ?-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor mutations, most of which occur within GRIA3, are from patients with intellectual disabilities, suggesting a link to this condition. Similarly, the most common phenotype for kainate receptor variants is intellectual disability. Herein, we summarize the current understanding of disease-associated mutations in ionotropic GABA and glutamate receptor families, and discuss implications regarding the identification of human mutations and treatment of neurologic diseases. |
| SCZ Keywords | schizophrenia,schizophrenic |
