GRIA3 |
- 1
Haplo
Score - 0
Triplo
Score
Gene Facts External Data Attribution
- HGNC Symbol
- GRIA3 (HGNC:4573) HGNC Entrez Ensembl OMIM UCSC Uniprot GeneReviews LOVD LSDB ClinVar
- HGNC Name
- glutamate ionotropic receptor AMPA type subunit 3
- Gene type
- protein-coding gene
- Locus type
- gene with protein product
- Previous symbols
- GLUR3
- Alias symbols
- GluA3, GLURC, MRX94, GluR-3, GluR-C, GluR-K3, iGluR3
- %HI
- 2.64(Read more about the DECIPHER Haploinsufficiency Index)
- pLI
- 1(Read more about gnomAD pLI score)
- LOEUF
- 0.19(Read more about gnomAD LOEUF score)
- Cytoband
- Xq25
- Genomic Coordinates
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GRCh37/hg19: chrX:122318131-122624766 NCBI Ensembl UCSC GRCh38/hg38: chrX:123184278-123490915 NCBI Ensembl UCSC - MANE Select Transcript
- NM_007325.5 ENST00000620443.2 (Read more about MANE Select)
- MANE Plus Clinical Transcript(s)
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NM_000828.5 ENST00000622768.5 (Read more about MANE Plus Clinical) - Function
- Receptor for glutamate that functions as a ligand-gated ion channel in the central nervous system and plays an important role in excitatory synaptic transmission. L-glutamate acts as an excitatory neurotransmitter at many synapses in the central nervous system. Binding of the excitatory neurotransmitter L-glutamate induces a conformation change, leading to the opening of the cation channel, and thereby converts the chemical signal to an electrical impulse. The receptor then desensitizes rapidly ... (Source: Uniprot)
Dosage Sensitivity Summary (Gene)
Haploinsufficiency (HI) Score Details
- syndromic X-linked intellectual disability 94 Monarch
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PUBMED:
17568425
Chiyonobu et al. (2007) reported a 498 kb partial tandem duplication involving GRIA3 gene in a male patient with unexplained intellectual disability (ID). The duplication encompassed exons 1-6 with genomic breakpoints chrX:121,756,066-122,254,426 (hg17). The mother was shown to be a carrier. Expression studies of the lymphoblastoid cell revealed remarkably reduced GRIA3 gene transcript in both mother and child. The X chromosome inactivation (XCI) studies in the mother showed a completely skewed XCI (100:0) in lymphocytes, which suggested that the normal X was inactivated. However, given that her cognitive function was reported normal, the GRIA3 expression in the brain was suspected to be at a normal level. The duplication may cause ID due to (1) position-effect resulting in decreased expression of the normal copy of GRIA3 or (2) a dominant-negative effect of the truncated GRIA3 protein resulting in an epigentically modification of the promoter of the entire copy of GRIA3.
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PUBMED:
19449417
Bonnet et al. (2009) described a 275 kb partial tandem duplication of GRIA3 gene in two brothers (II-1 and II-3) with intellectual disability (ID), developmental delay, behavior troubles and dysmorphic features. The duplication involved the GRIA3 gene with genomic breakpoints chrX:122,143,781-122,419,314 (hg18). The unaffected sister (II-2) also carried the duplication but had completely skewed XCI pattern (3-97%). The duplication was inherited from the mother (I-1) who had language and learning disabilities, facial hypotonia and moderately short upper lip. The clinical features observed in the mother might be due to the random XCI pattern (23-77%) in her lymphocyte. Expression studies showed the presence of three aberrant GRIA3 transcripts with multi-exon duplication (i.e. dup exon 1-12fs, dup exon 2-12fs, and dup exon 3-12fs), which resulted in a frameshift and led to a premature termination codon. As such, the abnormal GRIA3 transcript might produce a non-functional truncated protein (i.e. lacking S2 and TM4 domain) or no protein due to degradation of abnormal protein. Either scenario would lead to a non-functional glutamate receptor ionotropic AMPA subunit 3 (GluR3), which was implicated in learning and memory. There was a second 270 kb duplication in this family that included the BIRC4 and STAG2 genes (chrX:122,812,948-123,082,916 [hg18]), which could not be completely excluded as possible contributing factor to the overall phenotype of the affected members. Because of this, this case will not be scored.
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PUBMED:
17989220
Wu et al. (2007) reported a 400 kb deletion involving solely the GRIA3 gene (genomic breakpoints 122.00-122.40Mb) detected in a male patient presenting with moderate intellectual disability (ID), poor muscle bulk, muscle weakness, asthetic body habitus and hyporeflexia. The authors also identified four missense variants involving GRIA3 gene in a study of 400 unrelated probands with X-linked intellectual disability. All four missense variants resided to the functional domain of the iGluR3 protein (encoded by the GRIA3 gene). Expression studies in HEK293 cells showed the p.G833R variant (affecting S2 domain) was associated with 78% reduction in receptor protein due to protein misfolding. The p.M706T (affecting M2-M3 link) and p.R631S (affecting S1 - near channel core) variants were associated with minimal or no channel function. In contrast, the p.R450Q (affecting M4) variant was also found in the maternal uncle with apparent normal cognitive function. The functional studies of p.R450Q variant showed 'distinct kinetic changes in that desensitization was slightly accelerated and recovery from desensitization was drastically slowed.' Hence, it is unclear how the kinetic alterations relate to the ID phenotype in the patient with p.R450Q variant. The author concluded that mutant iGluR3 with altered kinetic properties is associated with moderate cognitive impairment in humans.
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PUBMED:
25644381
Hu et al (Mol Psychiatry 2016) describe results from 405 unresolved families with XLID studied by exome sequencing. They identify a damaging nonsense variant (sup Table 5; p.E224*) in GRIA3 in the clinical cohort that was absent in controls. Inheritance unknown. In this study, a total of 5 affected males were identified and 4 carrier females for this variant.
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PUBMED:
36863698
A denovo frameshift variant, p.(Thr44Serfs*39), in GRIA3 is described in a patient with schizophrenia recently in AJMG Part B (2023). The authors collected this data across 3,477 schizophrenia patients based on a retrospective analysis.
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PUBMED:
35031858
Hamanaka et al (Hum Genetics 2022) identified a missense variant, c.1844C-T, by trio exome sequencing. It was a de novo hemizygous event in a male. Protein modeling suggested that the mutation could result in abnormal protein conformational states. Functional studies were performed with HEK293 cells transfected with a vector containing GRIA3 with the A615V mutation demonstrated slow kinetics of desensitization and deactivation, which may allow for more ion current. Authors concluded that the mutation had a gain-of-function effect.
The loss-of-function and triplosensitivity ratings for genes on the X chromosome are made in the context of a male genome to account for the effects of hemizygous duplications or nullizygous deletions. In contrast, disruption of some genes on the X chromosome causes male lethality and the ratings of dosage sensitivity instead take into account the phenotype in female individuals. Factors that may affect the severity of phenotypes associated with X-linked disorders include the presence of variable copies of the X chromosome (i.e. 47,XXY or 45,X) and skewed X-inactivation in females.
Triplosensitivity (TS) Score Details
The loss-of-function and triplosensitivity ratings for genes on the X chromosome are made in the context of a male genome to account for the effects of hemizygous duplications or nullizygous deletions. In contrast, disruption of some genes on the X chromosome causes male lethality and the ratings of dosage sensitivity instead take into account the phenotype in female individuals. Factors that may affect the severity of phenotypes associated with X-linked disorders include the presence of variable copies of the X chromosome (i.e. 47,XXY or 45,X) and skewed X-inactivation in females.