基因-基因相互作用导致阿什肯纳兹犹太人群体 2 型糖尿病发病风险增加。
Gene-gene interactions lead to higher risk for development of type 2 diabetes in an Ashkenazi Jewish population.
机构信息
Department of Psychiatry, Washington University School of Medicine, St Louis, Missouri, United States of America.
出版信息
PLoS One. 2010 Mar 26;5(3):e9903. doi: 10.1371/journal.pone.0009903.
BACKGROUND
Evidence has accumulated that multiple genetic and environmental factors play important roles in determining susceptibility to type 2 diabetes (T2D). Although variants from candidate genes have become prime targets for genetic analysis, few studies have considered their interplay. Our goal was to evaluate interactions among SNPs within genes frequently identified as associated with T2D.
METHODS/PRINCIPAL FINDINGS: Logistic regression was used to study interactions among 4 SNPs, one each from HNF4A[rs1884613], TCF7L2[rs12255372], WFS1[rs10010131], and KCNJ11[rs5219] in a case-control Ashkenazi sample of 974 diabetic subjects and 896 controls. Nonparametric multifactor dimensionality reduction (MDR) and generalized MDR (GMDR) were used to confirm findings from the logistic regression analysis. HNF4A and WFS1 SNPs were associated with T2D in logistic regression analyses [P<0.0001, P<0.0002, respectively]. Interaction between these SNPs were also strong using parametric or nonparametric methods: the unadjusted odds of being affected with T2D was 3 times greater in subjects with the HNF4A and WFS1 risk alleles than those without either (95% CI = [1.7-5.3]; P<or=0.0001). Although the univariate association between the TCF7L2 SNP and T2D was relatively modest [P = 0.02], when paired with the HNF4A SNP, the OR for subjects with risk alleles in both SNPs was 2.4 [95% CI = 1.7-3.4; P<or=0.0001]. The KCNJ11 variant reached significance only when paired with either the HNF4A or WFSI SNPs: unadjusted ORs were 2.0 [95% CI = 1.4-2.8; P<or=0.0001] and 2.3 [95% CI = 1.2-4.4; P<or=0.0001], respectively. MDR and GMDR results were consistent with the parametric findings.
CONCLUSIONS
These results provide evidence of strong independent associations between T2D and SNPs in HNF4A and WFS1 and their interaction in our Ashkenazi sample. We also observed an interaction in the nonparametric analysis between the HNF4A and KCNJ11 SNPs (P<or=0.001), demonstrating that an independently non-significant variant may interact with another variant resulting in an increased disease risk.
背景
有证据表明,多种遗传和环境因素在决定 2 型糖尿病(T2D)易感性方面起着重要作用。尽管候选基因的变异已成为遗传分析的主要目标,但很少有研究考虑它们的相互作用。我们的目标是评估经常与 T2D 相关的基因内 SNPs 之间的相互作用。
方法/主要发现:在一个 974 名糖尿病患者和 896 名对照的阿什肯纳兹样本中,使用逻辑回归研究了 HNF4A[rs1884613]、TCF7L2[rs12255372]、WFS1[rs10010131]和 KCNJ11[rs5219] 基因中的 4 个 SNP 之间的相互作用。非参数多因子维度缩减(MDR)和广义 MDR(GMDR)用于确认逻辑回归分析的结果。在逻辑回归分析中,HNF4A 和 WFS1 SNP 与 T2D 相关[P<0.0001,P<0.0002]。使用参数或非参数方法,这些 SNP 之间的相互作用也很强:与没有任何一个 SNP 风险等位基因的个体相比,携带 HNF4A 和 WFS1 风险等位基因的个体患 T2D 的几率高出 3 倍(95%CI=[1.7-5.3];P<0.0001)。虽然 TCF7L2 SNP 与 T2D 的单变量相关性相对较弱[P=0.02],但与 HNF4A SNP 配对时,两个 SNP 中均携带风险等位基因的个体的 OR 为 2.4[95%CI=1.7-3.4];P<0.0001]。KCNJ11 变体仅与 HNF4A 或 WFSI SNP 配对时才达到显著水平:未调整的 OR 分别为 2.0[95%CI=1.4-2.8];P<0.0001]和 2.3[95%CI=1.2-4.4];P<0.0001]。MDR 和 GMDR 的结果与参数结果一致。
结论
这些结果为我们的阿什肯纳兹样本中 T2D 与 HNF4A 和 WFS1 中 SNP 之间的强烈独立关联及其相互作用提供了证据。我们还在非参数分析中观察到 HNF4A 和 KCNJ11 SNP 之间的相互作用(P<0.001),这表明一个独立的非显著变体可能与另一个变体相互作用,导致疾病风险增加。
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