Department of Internal Medicine, Erasmus MC University Medical Center Rotterdam, Rotterdam, The Netherlands.
The Generation R Study Group, Erasmus MC, Erasmus University Medical Center Rotterdam, Rotterdam, The Netherlands.
Genome Med. 2024 Jan 10;16(1):10. doi: 10.1186/s13073-023-01255-7.
Type 2 diabetes (T2D) is a heterogeneous and polygenic disease. Previous studies have leveraged the highly polygenic and pleiotropic nature of T2D variants to partition the heterogeneity of T2D, in order to stratify patient risk and gain mechanistic insight. We expanded on these approaches by performing colocalization across GWAS traits while assessing the causality and directionality of genetic associations.
We applied colocalization between T2D and 20 related metabolic traits, across 243 loci, to obtain inferences of shared casual variants. Network-based unsupervised hierarchical clustering was performed on variant-trait associations. Partitioned polygenic risk scores (PRSs) were generated for each cluster using T2D summary statistics and validated in 21,742 individuals with T2D from 3 cohorts. Inferences of directionality and causality were obtained by applying Mendelian randomization Steiger's Z-test and further validated in a pediatric cohort without diabetes (aged 9-12 years old, n = 3866).
We identified 146 T2D loci that colocalized with at least one metabolic trait locus. T2D variants within these loci were grouped into 5 clusters. The clusters corresponded to the following pathways: obesity, lipodystrophic insulin resistance, liver and lipid metabolism, hepatic glucose metabolism, and beta-cell dysfunction. We observed heterogeneity in associations between PRSs and metabolic measures across clusters. For instance, the lipodystrophic insulin resistance (Beta - 0.08 SD, 95% CI [- 0.10-0.07], p = 6.50 × 10) and beta-cell dysfunction (Beta - 0.10 SD, 95% CI [- 0.12, - 0.08], p = 1.46 × 10) PRSs were associated to lower BMI. Mendelian randomization Steiger analysis indicated that increased T2D risk in these pathways was causally associated to lower BMI. However, the obesity PRS was conversely associated with increased BMI (Beta 0.08 SD, 95% CI 0.06-0.10, p = 8.0 × 10). Analyses within a pediatric cohort supported this finding. Additionally, the lipodystrophic insulin resistance PRS was associated with a higher odds of chronic kidney disease (OR 1.29, 95% CI 1.02-1.62, p = 0.03).
We successfully partitioned T2D genetic variants into phenotypic pathways using a colocalization first approach. Partitioned PRSs were associated to unique metabolic and clinical outcomes indicating successful partitioning of disease heterogeneity. Our work expands on previous approaches by providing stronger inferences of shared causal variants, causality, and directionality of GWAS variant-trait associations.
2 型糖尿病(T2D)是一种异质性和多基因疾病。先前的研究利用 T2D 变异的高度多基因和多效性性质,将 T2D 的异质性进行划分,以便对患者的风险进行分层,并获得机制上的见解。我们通过在评估遗传关联的因果关系和方向性的同时,在 GWAS 特征之间进行共定位,扩展了这些方法。
我们应用了 243 个位点的 T2D 与 20 种相关代谢特征之间的共定位,以获得共享因果变异的推断。对变异-特征关联进行基于网络的无监督层次聚类。使用 T2D 汇总统计数据为每个簇生成分区多基因风险评分(PRS),并在来自 3 个队列的 21742 名 T2D 患者中进行验证。通过应用孟德尔随机化 Steiger Z 检验获得方向性和因果关系的推断,并在没有糖尿病的儿科队列(年龄 9-12 岁,n=3866)中进一步验证。
我们确定了 146 个与至少一个代谢特征位点共定位的 T2D 位点。这些位点内的 T2D 变异被分为 5 个簇。簇对应于以下途径:肥胖、脂肪营养不良性胰岛素抵抗、肝脏和脂质代谢、肝葡萄糖代谢和β细胞功能障碍。我们观察到跨簇 PRS 与代谢指标之间的关联存在异质性。例如,脂肪营养不良性胰岛素抵抗(Beta -0.08 SD,95%CI [-0.10-0.07],p=6.50×10)和β细胞功能障碍(Beta -0.10 SD,95%CI [-0.12,-0.08],p=1.46×10)PRS 与较低的 BMI 相关。孟德尔随机化 Steiger 分析表明,这些途径中 T2D 风险的增加与较低的 BMI 呈因果关系。然而,肥胖 PRS 与 BMI 的增加呈相反的相关性(Beta 0.08 SD,95%CI 0.06-0.10,p=8.0×10)。在儿科队列中的分析支持了这一发现。此外,脂肪营养不良性胰岛素抵抗 PRS 与慢性肾脏病的更高几率相关(OR 1.29,95%CI 1.02-1.62,p=0.03)。
我们使用共定位优先方法成功地将 T2D 遗传变异划分为表型途径。划分的 PRS 与独特的代谢和临床结局相关,表明疾病异质性的成功划分。我们的工作通过提供对共享因果变异、因果关系和 GWAS 变异-特征关联的方向性的更强推断,扩展了以前的方法。
