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P137 Next generation sequencing reveals HLA and KIR susceptibility alleles for rheumatoid arthritis

Previous associations of KIR with rheumatoid arthritis, RA, have been reported in some but not all populations studied, possibly due to limited genotyping in some studies, and gene content homogeneity in some populations. In this study, HLA and KIR typing was carried out, including KIR haplotype and...

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Bibliographic Details
Published in:Human immunology 2017-09, Vol.78, p.154-154
Main Authors: Ishitani, Akiko, Nakanishi, Mari, Tanaka, Hidenori, Miyazaki, Yuki, Saji, Hiroh, Hatake, Katsuhiko, Geraghty, Daniel E.
Format: Article
Language:English
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Summary:Previous associations of KIR with rheumatoid arthritis, RA, have been reported in some but not all populations studied, possibly due to limited genotyping in some studies, and gene content homogeneity in some populations. In this study, HLA and KIR typing was carried out, including KIR haplotype and allele typing, using state of the art sequencing methodologies in a re-examination of the association of these gene families with RA in a Japanese cohort. An additional cohort of pollen allergy patients was examined in an effort to distinguish common genetic elements in a phenotype functionally reciprocal to RA. DNA from 116 RA patients, 167 pollen allergy patients, and 185 healthy controls were examined for KIR haplotype, allele type and HLA class I and II allele types using next generation sequencing. Association analysis was carried out with healthy controls classified into two groups, positive and negative for allergen specific IgE antibodies, including a pollen allergy group for comparison with RA. Significant results were observed with allele types KIR2DS4∗007 and KIR3DL1∗00501, which strongly associated with disease, while KIR 3DL1∗001 and 3DL1∗02901 associated with a protective phenotype. These findings were significant when compared with the IgE positive control group while the IgE-negative group did not demonstrate significance. Given that KIR3DL1 is an inhibitory receptor and the KIR3DL1∗00501 allele has been reported as a low expression allele, these findings are consistent with a model of weak suppression of NK cytotoxic activity as a contributing factor in RA. Further support for this model was observed from the reciprocity of the genetic associations between RA and pollen allergy.
ISSN:0198-8859
1879-1166
DOI:10.1016/j.humimm.2017.06.197