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早发型2型糖尿病家族是英国糖尿病协会沃伦2号全基因组扫描中基因座的主要贡献者,并在染色体8q21、21q22和22q11上鉴定出假定的新基因座。

Young-onset type 2 diabetes families are the major contributors to genetic loci in the Diabetes UK Warren 2 genome scan and identify putative novel loci on chromosomes 8q21, 21q22, and 22q11.

作者信息

Frayling Timothy M, Wiltshire Steven, Hitman Graham A, Walker Mark, Levy Jonathan C, Sampson Mike, Groves Christopher J, Menzel Stephan, McCarthy Mark I, Hattersley Andrew T

机构信息

Department of Diabetes and Vascular Medicine, Peninsula Medical School, Exeter, UK.

出版信息

Diabetes. 2003 Jul;52(7):1857-63. doi: 10.2337/diabetes.52.7.1857.

DOI:10.2337/diabetes.52.7.1857
PMID:12829657
Abstract

A young onset of type 2 diabetes is likely to result, in part, from greater genetic susceptibility. Young-onset families may therefore represent a group in which genes are more easily detectable by linkage. To test this hypothesis, we conducted age at diagnosis (AAD) stratified linkage analyses in the Diabetes UK Warren 2 sibpairs. In the previously published unstratified analysis, evidence for linkage (logarithm of odds [LOD] >1.18) was found at seven loci. The LOD scores at these seven loci were higher in the 245 families with AAD <55 years (L55) compared with the 328 families with AAD >55 years (G55). Five of these seven loci (1q24-25, 5q13, 8p21-22, 8q24.2, and 10q23.2) had LOD scores >1.18 in the L55 subset but only one (8p21-22) did in the G55 subset. Two additional loci (8q21.13 and 21q22.2) showed evidence for linkage in the L55 subset alone. Another locus (22q11) showed evidence for linkage in a subset of families with AAD <45 years. Using a locus-counting approach, the L55 subset had significantly more loci (P approximately 0.01) than expected under the null hypothesis of no linkage across the LOD score range 0.59-3.0. In contrast, the G55 subset contained no more susceptibility loci than that expected by chance. In conclusion, young-onset families provide both disproportionate evidence for linkage to known loci and evidence for additional novel loci. Our data confirm our hypothesis that families segregating young-onset type 2 diabetes represent a more powerful resource for defining susceptibility genes by linkage.

摘要

2型糖尿病的早发可能部分归因于更高的遗传易感性。因此,早发糖尿病家族可能是一类通过连锁分析更容易检测到基因的群体。为了验证这一假设,我们在英国糖尿病协会沃伦2型同胞对中进行了诊断年龄(AAD)分层连锁分析。在之前发表的非分层分析中,在7个位点发现了连锁证据(优势对数[LOD]>1.18)。与328个AAD>55岁的家族(G55)相比,在245个AAD<55岁的家族(L55)中,这7个位点的LOD得分更高。这7个位点中的5个(1q24 - 25、5q13、8p21 - 22、8q24.2和10q23.2)在L55亚组中的LOD得分>1.18,但在G55亚组中只有一个(8p21 - 22)如此。另外两个位点(8q21.13和21q22.2)仅在L55亚组中显示出连锁证据。另一个位点(22q11)在AAD<45岁的家族亚组中显示出连锁证据。使用位点计数方法,在LOD得分范围0.59 - 3.0内,L55亚组的位点显著多于无连锁零假设下预期的位点(P约为0.01)。相比之下,G55亚组所含的易感位点并不比偶然预期的多。总之,早发糖尿病家族不仅为与已知位点的连锁提供了不成比例的证据,还为额外的新位点提供了证据。我们的数据证实了我们的假设,即分离早发2型糖尿病的家族是通过连锁定义易感基因的更有力资源。

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