OBJECTIVE: The disease association of the common 1858C>T Arg620Trp (rs2476601) nonsynonymous single nucleotide polymorphism (SNP) of protein tyrosine phosphatase; nonreceptor type 22 (PTPN22) on chromosome 1p13 has been confirmed in type 1 diabetes and also in other autoimmune diseases, including rheumatoid arthritis and Graves' disease. Some studies have reported additional associated SNPs independent of rs2476601/Trp(620), suggesting that it may not be the sole causal variant in the region and that the relative risk of rs2476601/Trp(620) is greater in lower risk by HLA class II genotypes than in the highest risk class II risk category. RESEARCH DESIGN AND METHODS: We resequenced PTPN22 and used these and other data to provide >150 SNPs to evaluate the association of the PTPN22 gene and its flanking chromosome region with type 1 diabetes in a minimum of 2,000 case subjects and 2,400 control subjects. RESULTS: Due to linkage disequilibrium, we were unable to distinguish between rs2476601/Trp(620) (P = 2.11 x10(-87)) and rs6679677 (P = 3.21 x10(-87)), an intergenic SNP between the genes putative homeodomain transcription factor 1 and round spermatid basic protein 1. None of the previously reported disease-associated SNPs proved to be independent of rs2476601/Trp(620). We did not detect any interaction with age at diagnosis or sex. However, we found that rs2476601/Trp(620) has a higher relative risk in type 1 diabetic case subjects carrying lower risk HLA class II genotypes than in those carrying higher risk ones (P = 1.36 x 10(-4) in a test of interaction). CONCLUSIONS: In our datasets, there was no evidence for allelic heterogeneity at the PTPN22 locus in type 1 diabetes, indicating that the SNP rs2476601/Trp(620) remains the best candidate in this chromosome region in European populations. The heterogeneity of rs2476601/Trp(620) disease risk by HLA class II genotype is consistent with previous studies, and the joint effect of the two loci is still greater in the high-risk group.
OBJECTIVE: The disease association of the common 1858C>T Arg620Trp (rs2476601) nonsynonymous single nucleotide polymorphism (SNP) of protein tyrosine phosphatase; nonreceptor type 22 (PTPN22) on chromosome 1p13 has been confirmed in type 1 diabetes and also in other autoimmune diseases, including rheumatoid arthritis and Graves' disease. Some studies have reported additional associated SNPs independent of rs2476601/Trp(620), suggesting that it may not be the sole causal variant in the region and that the relative risk of rs2476601/Trp(620) is greater in lower risk by HLA class II genotypes than in the highest risk class II risk category. RESEARCH DESIGN AND METHODS: We resequenced PTPN22 and used these and other data to provide >150 SNPs to evaluate the association of the PTPN22 gene and its flanking chromosome region with type 1 diabetes in a minimum of 2,000 case subjects and 2,400 control subjects. RESULTS: Due to linkage disequilibrium, we were unable to distinguish between rs2476601/Trp(620) (P = 2.11 x10(-87)) and rs6679677 (P = 3.21 x10(-87)), an intergenic SNP between the genes putative homeodomain transcription factor 1 and round spermatid basic protein 1. None of the previously reported disease-associated SNPs proved to be independent of rs2476601/Trp(620). We did not detect any interaction with age at diagnosis or sex. However, we found that rs2476601/Trp(620) has a higher relative risk in type 1 diabetic case subjects carrying lower risk HLA class II genotypes than in those carrying higher risk ones (P = 1.36 x 10(-4) in a test of interaction). CONCLUSIONS: In our datasets, there was no evidence for allelic heterogeneity at the PTPN22 locus in type 1 diabetes, indicating that the SNP rs2476601/Trp(620) remains the best candidate in this chromosome region in European populations. The heterogeneity of rs2476601/Trp(620) disease risk by HLA class II genotype is consistent with previous studies, and the joint effect of the two loci is still greater in the high-risk group.
Authors: M Maziarz; M Janer; J C Roach; W Hagopian; J P Palmer; K Deutsch; C B Sanjeevi; I Kockum; N Breslow; A Lernmark Journal: Genes Immun Date: 2010-05-06 Impact factor: 2.676
Authors: A K Steck; E E Baschal; J M Jasinski; B O Boehm; N Bottini; P Concannon; C Julier; G Morahan; J A Noble; C Polychronakos; J X She; G S Eisenbarth Journal: Genes Immun Date: 2009-12 Impact factor: 2.676
Authors: Lisa M Maier; Christopher E Lowe; Jason Cooper; Kate Downes; David E Anderson; Christopher Severson; Pamela M Clark; Brian Healy; Neil Walker; Cristin Aubin; Jorge R Oksenberg; Stephen L Hauser; Alistair Compston; Stephen Sawcer; Philip L De Jager; Linda S Wicker; John A Todd; David A Hafler Journal: PLoS Genet Date: 2009-01-02 Impact factor: 5.917
Authors: S M Raj; J M M Howson; N M Walker; J D Cooper; D J Smyth; S F Field; H E Stevens; J A Todd Journal: Diabetologia Date: 2009-05-20 Impact factor: 10.122