(1) Background: Autoimmune thyroid diseases (AITDs) are female predominant and much attention has been focused on G protein-coupled receptor 174 (GPR174) and integral membrane protein 2A (ITM2A) on the X chromosome as Grave’s disease (GD) susceptible locus. (2) Methods: We genotyped four single nucleotide polymorphisms (SNPs), rs3810712, rs3810711, rs3827440, and rs5912838, of GPR174 and ITM2A in 115 Korean children with AITD (M = 25 and F = 90; GD = 74 (14.7 ± 3.6 years), HD = 41 (13.4 ± 3.2 years); GD-thyroid-associated ophthalmopathy (TAO) = 40, GD-non-TAO=34) and 204 healthy Korean individuals (M = 104 and F = 100). The data were analyzed by sex-stratified or combined. (3) Results: Three SNPs, rs3810712, rs3810711 and rs3827440, were found to be in perfect linkage disequilibrium (D’ = 1, r2 = 1). In AITD, HD, GD, GD-TAO, and GD-non-TAO patients, rs3827440 TT/T and rs5912838 AA/A were susceptible and rs3827440 CC/C and rs5912838 CC/C were protective genotypes. When analyzed by sex, rs3827440 TT and rs5912838 AA were susceptible and rs3827440 CC and rs5912838 CC were protective genotypes in female AITD, GD, GD-TAO, and GD-non-TAO subjects. In male AITD patients, rs3827440 T and rs5912838 A were susceptible and rs3827440 C and rs5912838 C were protective genotypes. (4) Conclusions: Polymorphisms in GPR174 and ITM2A genes on the X chromosome might be associated with AITD in Korean children.
Auto immune thyroid disease (AITD) is predominant in female and has been focused on the sexual diploid in immune response. The interleukin 1 receptor associated kinase 1 (IRAK1) gene on the X chromosome was recently suggested as strong autoimmune disease-susceptible loci, second to the major histocompatibility complex region. We investigated the frequency of IRAK1 single-nucleotide polymorphisms (SNPs) in children with autoimmune thyroid disease (AITD). In this study, we observed that SNPs of IRAK1 including rs3027898, rs1059703 and rs1059702 in 115 Korean AITD pediatric patients (Grave’s disease [GD]=74 (Female (F)=52/Male (M)=22); Hashimoto’s disease [HD]=41 (F=38/M=3); thyroid-associated ophthalmopathy [TAO]=40 (F=27/M=13); without (w/o)-TAO=75 (F=63/M=12); Total M=25, Total F=90; mean age=11.9years) and 204 healthy Korean individuals (male=104, female=100). The data from cases and controls were analyzed from separate sex-stratified or all combined by Chi square test for categorical variables and Student’s t-test for numerical variables. Our study revealed that SNPs of IRAK1 associated HD and w/o-TAO but GD and TAO was not found significant. When cases and controls were analyzed by separate sex, we found that rs3027898 AA, rs1059703 AA and rs1059702 GG showed disease susceptibility in female AITD, HD and w/o-TAO patients in female. Also, all rs3027898, rs1059703 and rs1059702 were found to be in strong linkage disequilibrium (LD) (D’=0.96-0.98, R-squire=0.83-0.97). The haplotype of three SNPs was higher in AITD than in controls (CGA, r 2 =5.42, p =0.019). Our results suggest that IRAK1 polymorphisms may contribute to the pathogenesis of Hashimoto’s disease, autoimmune thyroid disease and without thyroid-associated ophthalmopathy for females.
Background: Autoimmune thyroid diseases (AITDs) are female predominant and the biology of sexual dimorphism is not clearly understood. Recently, GPR174 and ITM2A on X chromosome have been newly suggested as autoimmune thyroid disease susceptible loci. Methods: Fourteen single nucleotide polymorphisms in immune related genes on X chromosome were analyzed in 108 Korean children (girls =90, boys =18) with AITD [Hashimoto disease (HD) = 40, Graves′ disease (GD) = 68, thyroid-associated ophthalmopathy (TAO) = 37, and non-TAO =60] with gender ratio matched normal control 106 controls (female = 43, male = 63). Results: In AITD, the frequencies of GPR174 rs3810711 T allele (OR=6.0, cP =0.000), GRP174 rs3827440 T allele (OR=6.0, cP =0.000), ITM2A-GPR174 rs5912838 A allele (OR=2.7, cP =0.001) were increased and of GPR174 rs3810711 CC genotype (OR=0.2, cP =0.000), GRP174 rs3827440 CC genotype (OR=0.2, cP =0.000), ITM2A-GPR174 rs5912838 CC genotype (OR=0.4, cP =0.000)were lower than controls. In GD, the frequencies of GPR174 rs3810711 T allele (OR=8.4, cP =0.000), GRP174 rs3827440 T allele (OR=8.4, cP =0.000), ITM2A-GPR174 rs5912838 A allele (OR=3.3, cP =0.000) were increased and GPR174 rs3810711 CC genotype (OR=0.1, cP =0.000), C allele (OR=0.5, cP =0.044), GRP174 rs3827440 CC genotype (OR=0.2, cP =0.000), C allele (OR=0.5, cP =0.044), ITM2A-GPR174 rs5912838 CC genotype (OR=0.4, cP =0.000) were lower than controls. In HD, the frequencies of GPR174 rs3810711 T allele (OR=3.9, cP =0.003), GRP174 rs3827440 T allele(OR=3.9, cP =0.003) were increased and GPR174 rs3810711 CC genotype (OR=0.3, cP =0.004), rs3827440 CC genotype (OR=3.9, cP =0.003) were lower than controls. In thyroid-associated ophthalmopathy, the frequencies of GPR174 rs3810711 T allele (OR=7.9, cP =0.000), GRP174 rs3827440 T allele (OR=7.9, cP =0.000), ITM2A-GPR174 rs5912838 A allele (OR=3.1, cP =0.001) were increased and of GPR174 rs3810711 CC genotype (OR=0.1, cP =0.000), GRP174 rs3827440 CC genotype (OR=0.1, cP =0.000), ITM2A-GPR174 rs5912838 CC genotype (OR=0.3, cP =0.014)were lower than controls. Conclusions. Our results suggest that polymorphisms of GPR174 and ITM2A genes on X chromosome might contribute to the pathogenesis of AITD.
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