Rosta Klara, Al-Aissa Zahra, Hadarits Orsolya, Harreiter Jürgen, Nádasdi Ákos, Kelemen Fanni, Bancher-Todesca Dagmar, Komlósi Zsolt, Németh László, Rigó János, Sziller István, Somogyi Anikó, Kautzky-Willer Alexandra, Firneisz Gábor
Department of Obstetrics and Gynecology, Medical University of Vienna, Vienna, Austria.
1st Department of Obstetrics and Gynecology, Semmelweis University, Budapest, Hungary.
PLoS One. 2017 Jan 10;12(1):e0169781. doi: 10.1371/journal.pone.0169781. eCollection 2017.
Genetic variation in human maternal DNA contributes to the susceptibility for development of gestational diabetes mellitus (GDM).
We assessed 77 maternal single nucleotide gene polymorphisms (SNPs) for associations with GDM or plasma glucose levels at OGTT in pregnancy.
960 pregnant women (after dropouts 820: case/control: m99'WHO: 303/517, IADPSG: 287/533) were enrolled in two countries into this case-control study. After genomic DNA isolation the 820 samples were collected in a GDM biobank and assessed using KASP (LGC Genomics) genotyping assay. Logistic regression risk models were used to calculate ORs according to IADPSG/m'99WHO criteria based on standard OGTT values.
The most important risk alleles associated with GDM were rs10830963/G of MTNR1B (OR = 1.84/1.64 [IADPSG/m'99WHO], p = 0.0007/0.006), rs7754840/C (OR = 1.51/NS, p = 0.016) of CDKAL1 and rs1799884/T (OR = 1.4/1.56, p = 0.04/0.006) of GCK. The rs13266634/T (SLC30A8, OR = 0.74/0.71, p = 0.05/0.02) and rs7578326/G (LOC646736/IRS1, OR = 0.62/0.60, p = 0.001/0.006) variants were associated with lower risk to develop GDM. Carrying a minor allele of rs10830963 (MTNR1B); rs7903146 (TCF7L2); rs1799884 (GCK) SNPs were associated with increased plasma glucose levels at routine OGTT.
We confirmed the robust association of MTNR1B rs10830963/G variant with GDM binary and glycemic traits in this Caucasian case-control study. As novel associations we report the minor, G allele of the rs7578326 SNP in the LOC646736/IRS1 region as a significant and the rs13266634/T SNP (SLC30A8) as a suggestive protective variant against GDM development. Genetic susceptibility appears to be more preponderant in individuals who meet both the modified 99'WHO and the IADPSG GDM diagnostic criteria.
人类母体DNA中的基因变异会增加妊娠期糖尿病(GDM)的发病易感性。
我们评估了77个母体单核苷酸基因多态性(SNP)与妊娠期糖尿病或妊娠期间口服葡萄糖耐量试验(OGTT)时血浆葡萄糖水平的相关性。
来自两个国家的960名孕妇(剔除后820名:病例/对照:按照1999年WHO标准为303/517,按照国际糖尿病与妊娠研究组(IADPSG)标准为287/533)被纳入这项病例对照研究。基因组DNA分离后,将820份样本收集到一个GDM生物样本库中,并使用竞争性等位基因特异性PCR(KASP,LGC基因组学公司)基因分型检测进行评估。基于标准OGTT值,使用逻辑回归风险模型根据IADPSG/1999年WHO标准计算比值比(OR)。
与GDM相关的最重要风险等位基因是MTNR1B的rs10830963/G(OR = 1.84/1.64 [IADPSG/1999年WHO],p = 0.0007/0.006)、CDKAL1的rs7754840/C(OR = 1.51/无显著性差异,p = 0.016)以及GCK的rs1799884/T(OR = 1.4/1.56,p = 0.04/0.006)。rs13266634/T(SLC30A8,OR = 0.74/0.71,p = 0.05/0.02)和rs7578326/G(LOC646736/IRS1,OR = 0.62/0.60,p = 0.001/0.006)变异与发生GDM的较低风险相关。携带rs10830963(MTNR1B);rs7903146(TCF7L2);rs1799884(GCK)SNP的次要等位基因与常规OGTT时血浆葡萄糖水平升高相关。
在这项白种人病例对照研究中,我们证实了MTNR1B rs10830963/G变异与GDM二元指标和血糖特征之间存在密切关联。作为新的关联,我们报告了LOC646736/IRS1区域中rs7578326 SNP的次要G等位基因是一个显著的抗GDM发展的保护变异,而rs13266634/T SNP(SLC30A8)是一个提示性的保护变异。在同时符合修改后的1999年WHO和IADPSG GDM诊断标准的个体中,遗传易感性似乎更为突出。
