Immunological Data Discovery Index
Immunological Data Discovery Index
| identifier: | SDY313 |
| description: |
JRA (also known as JIA) includes the commonest chronic autoimmune arthropathies of childhood. The MHC is involved with respect to risk, either susceptibility or protection in a subtype specific manner with strong gender bias and differences between ethnicities. Multiple MHC effects have been shown, especially in the commonest subtype, so called early onset pauciarticular JRA (Persistent Oligo in the JIA terminology) with three or more MHC regions believed to interact in generating susceptibility. An additional feature of the disease, unlike some other forms of autoimmunity, is the relative absence of common extended or ancestral haplotypes, especially those carrying HLA-DR4 and HLA-DR7 both of which are protective. The three regions include a class I region, or an area telomeric to it, and two class II regions those around HLA DR/DQ and HLA-DP. None of the regions involved are well defined nor were the specific genes involved identified. The alleles marking these regions (HLA-DR8, 11 and HLA-DPB1*0201) are atypical for autoimmunity. This is therefore an unusual MHC contribution to autoimmunity, the elucidation of which lends itself to high throughput technologies. The genetic features, although involving arthritis, are quite distinct from adult rheumatoid arthritis except for about 5% of older children. It is proposed to construct high throughput SNP maps in a family based study. Subtypes have different MHC profiles and in the rarest and most severe form of disease, systemic onset JRA, the MHC effect is rather minimal. In this form, preliminary data involving KIR gene haplotypes is available. Pursuing these KIR gene observations is proposed. The ability to leverage ongoing phenotyping and family based sample collection ensures a large and continuously growing pool of available DMAs for this project. Some of the patients will also have extensive gene expression studies allowing a comprehensive approach to the MHC and KIR genes in JRA and its subtypes.
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| aggregation: |
instance of dataset
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| refinement: |
2 - Complete set of descriptive data and results, as ascertained by ImmPort.
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| availability: |
available with registration
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| primaryPublications: |
20662067 25023400 23603761 27998952 20191588 19908388 20722033 |
| isAbout: |
The objectives of this study were:
To map MHC susceptibility and protective haplotypes using SNP typing in families with JRA.
To explore KIR genotypes/haplotypes in JRA subtypes with minor HLA effects and to assess the role of functionally relevant KIR-HLA gene combinations in disease susceptibility.
To refine the clinical phenotype associations and functional genomic data with the SNP-based MHC maps.
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| clinical trial: | |
| study category: | Autoimmune |
| study type: | Observational |
| subject species: | Homo sapiens |
| biosample type: | DNA |
| subject gender: | Both |
| assay type: |
HLA Typing SNP microarray |
| name: |
Juvenile Rheumatoid Arthritis
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| fullName: |
David Glass
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| affiliations: |
Cincinnati Children's Hospital Medical Center
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| roles: |
principal investigator
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| name: |
HLA Genetics in Pediatric Arthritis
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| size: |
1156
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| name: |
HLA/KIR Region Genetics in Pediatric Arthritis
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| output: |
SNP genotyping, HLA typing and DNA sequencing.
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| studyGroups: |
JRA (JIA) Group: Juvenile rheumatoid arthritis subjects (Juvenile idiopathic arthritis Extended Oligo, Oligo and RF neg Poly subjects)
Control Group: Control Subjects
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| description: |
Juvenile rheumatoid arthritis (JRA) (also known as Juvenile idiopathic arthritis (JIA)) includes the commonest chronic autoimmune arthropathies of childhood. The MHC is involved with respect to risk, either susceptibility or protection in a subtype specific manner with strong gender bias and differences between ethnicities. Multiple MHC effects have been shown, especially in the commonest subtype, so called early onset pauciarticular JRA (Persistent Oligo in the JIA terminology) with three or more MHC regions believed to interact in generating susceptibility. An additional feature of the disease, unlike some other forms of autoimmunity, is the relative absence of common extended or ancestral haplotypes, especially those carrying HLA-DR4 and HLA-DR7 both of which are protective. The three regions include a class I region, or an area telomeric to it, and two class II regions those around HLA DR/DQ and HLA-DP. None of the regions involved are well defined nor were the specific genes involved identified. The alleles marking these regions (HLA-DR8, 11 and HLA-DPB1*0201) are atypical for autoimmunity. This is therefore an unusual MHC contribution to autoimmunity, the elucidation of which lends itself to high throughput technologies. The genetic features, although involving arthritis, are quite distinct from adult rheumatoid arthritis except for about 5% of older children. It is proposed to construct high throughput SNP maps in a family based study. Subtypes have different MHC profiles and in the rarest and most severe form of disease, systemic onset JRA, the MHC effect is rather minimal. In this form, preliminary data involving KIR gene haplotypes is available. Pursuing these KIR gene observations is proposed. The ability to leverage ongoing phenotyping and family based sample collection ensures a large and continuously growing pool of available DMAs for this project. Some of the patients will also have extensive gene expression studies allowing a comprehensive approach to the MHC and KIR genes in JRA and its subtypes.
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| identifier: |
10.21430/M33Z8QHOKB
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| name: |
ImmPort
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| identifier: |
SCR:012804
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| homePage: |
http://www.immport.org |
