Folkhälsan Institute of Genetics, Folkhälsan Research Center, Helsinki, Finland.
Department of Nephrology, University of Helsinki and Helsinki University Hospital, Helsinki, Finland.
Diabetologia. 2024 Nov;67(11):2494-2506. doi: 10.1007/s00125-024-06241-1. Epub 2024 Aug 6.
AIMS/HYPOTHESIS: Diabetic kidney disease (DKD) is a severe diabetic complication that affects one third of individuals with type 1 diabetes. Although several genes and common variants have been shown to be associated with DKD, much of the predicted inheritance remains unexplained. Here, we performed next-generation sequencing to assess whether low-frequency variants, extending to a minor allele frequency (MAF) ≤10% (single or aggregated) contribute to the missing heritability in DKD.
We performed whole-exome sequencing (WES) of 498 individuals and whole-genome sequencing (WGS) of 599 individuals with type 1 diabetes. After quality control, next-generation sequencing data were available for a total of 1064 individuals, of whom 541 had developed either severe albuminuria or end-stage kidney disease, and 523 had retained normal albumin excretion despite a long duration of type 1 diabetes. Single-variant and gene-aggregate tests for protein-altering variants (PAV) and protein-truncating variants (PTV) were performed separately for WES and WGS data and combined in a meta-analysis. We also performed genome-wide aggregate analyses on genomic windows (sliding window), promoters and enhancers using the WGS dataset.
In the single-variant meta-analysis, no variant reached genome-wide significance, but a suggestively associated common THAP7 rs369250 variant (p=1.50 × 10, MAF=49%) was replicated in the FinnGen general population genome-wide association study (GWAS) data for chronic kidney disease and DKD phenotypes. The gene-aggregate meta-analysis provided suggestive evidence (p<4.0 × 10) at four genes for DKD, of which NAT16 (MAF≤10%) and LTA (also known as TNFβ, MAF≤5%) are replicated in the FinnGen general population GWAS data. The LTA rs2229092 C allele was associated with significantly lower TNFR1, TNFR2 and TNFR3 serum levels in a subset of FinnDiane participants. Of the intergenic regions suggestively associated with DKD, the enhancer on chromosome 18q12.3 (p=3.94 × 10, MAF≤5%) showed interaction with the METTL4 gene; the lead variant was replicated, and predicted to alter binding of the MafB transcription factor.
CONCLUSIONS/INTERPRETATION: Our sequencing-based meta-analysis revealed multiple genes, variants and regulatory regions that were suggestively associated with DKD. However, as no variant or gene reached genome-wide significance, further studies are needed to validate the findings.
目的/假设:糖尿病肾病(DKD)是一种严重的糖尿病并发症,影响三分之一的 1 型糖尿病患者。尽管已经发现了一些与 DKD 相关的基因和常见变异体,但仍有很大一部分可预测的遗传因素尚未得到解释。在这里,我们进行了下一代测序,以评估低频变异体(次要等位基因频率(MAF)≤10%(单一或聚合))是否会导致 DKD 中遗传缺失。
我们对 498 名 1 型糖尿病患者进行了全外显子组测序(WES),对 599 名 1 型糖尿病患者进行了全基因组测序(WGS)。经过质量控制,共有 1064 名患者的下一代测序数据可用,其中 541 名患者出现严重白蛋白尿或终末期肾病,523 名患者尽管患有 1 型糖尿病,但持续时间较长,但白蛋白排泄正常。分别对 WES 和 WGS 数据进行了蛋白质改变变异体(PAV)和蛋白质截断变异体(PTV)的单变体和基因聚合体检测,并在荟萃分析中进行了合并。我们还使用 WGS 数据集对基因组窗口(滑动窗口)、启动子和增强子进行了全基因组聚合分析。
在单变体荟萃分析中,没有变异达到全基因组显著水平,但一个提示相关的常见 THAP7 rs369250 变异体(p=1.50×10,MAF=49%)在 FinnGen 普通人群慢性肾病和 DKD 表型全基因组关联研究(GWAS)数据中得到了复制。基因聚合体荟萃分析在四个与 DKD 相关的基因中提供了提示性证据(p<4.0×10),其中 NAT16(MAF≤10%)和 LTA(也称为 TNFβ,MAF≤5%)在 FinnGen 普通人群 GWAS 数据中得到了复制。LTA rs2229092 C 等位基因与 FinnDiane 参与者亚组中 TNFR1、TNFR2 和 TNFR3 血清水平显著降低相关。在与 DKD 提示性相关的基因间区域中,染色体 18q12.3 上的增强子(p=3.94×10,MAF≤5%)与 METTL4 基因相互作用;主要变异体得到了复制,并预测改变了 MafB 转录因子的结合。
结论/解释:我们基于测序的荟萃分析揭示了多个与 DKD 提示性相关的基因、变异体和调控区域。然而,由于没有变异体或基因达到全基因组显著水平,因此需要进一步研究来验证这些发现。
