Lupus Genomics and Global Health Disparities Unit, Systemic Autoimmunity Branch, National Institute of Arthritis and Musculoskeletal and Skin Diseases, National Institutes of Health, Bethesda, MD, USA.
Arnold Palmer Hospital for Children, Orlando, FL, USA.
Genes Immun. 2023 Aug;24(4):200-206. doi: 10.1038/s41435-023-00214-x. Epub 2023 Jul 24.
Childhood-onset systemic lupus erythematosus (cSLE) patients are unique, with hallmarks of Mendelian disorders (early-onset and severe disease) and thus are an ideal population for genetic investigation of SLE. In this study, we use the transmission disequilibrium test (TDT), a family-based genetic association analysis that employs robust methodology, to analyze whole genome sequencing data. We aim to identify novel genetic associations in an ancestrally diverse, international cSLE cohort. Forty-two cSLE patients and 84 unaffected parents from 3 countries underwent whole genome sequencing. First, we performed TDT with single nucleotide variant (SNV)-based (common variants) using PLINK 1.9, and gene-based (rare variants) analyses using Efficient and Parallelizable Association Container Toolbox (EPACTS) and rare variant TDT (rvTDT), which applies multiple gene-based burden tests adapted for TDT, including the burden of rare variants test. Applying the GWAS standard threshold (5.0 × 10) to common variants, our SNV-based analysis did not return any genome-wide significant SNVs. The rare variant gene-based TDT analysis identified many novel genes significantly enriched in cSLE patients, including HNRNPUL2, a DNA repair protein, and DNAH11, a ciliary movement protein, among others. Our approach identifies several novel SLE susceptibility genes in an ancestrally diverse childhood-onset lupus cohort.
儿童发病系统性红斑狼疮 (cSLE) 患者具有孟德尔疾病(发病早且病情严重)的特征,因此是 SLE 遗传研究的理想人群。在这项研究中,我们使用传递不平衡检验 (TDT),这是一种基于家族的遗传关联分析方法,采用稳健的方法来分析全基因组测序数据。我们旨在分析一个具有多种祖先背景的国际 cSLE 队列中的新遗传关联。来自 3 个国家的 42 名 cSLE 患者和 84 名未受影响的父母接受了全基因组测序。首先,我们使用 PLINK 1.9 进行了基于单核苷酸变异 (SNV) 的 TDT(常见变异)分析,并使用高效且可并行化关联容器工具箱 (EPACTS) 和罕见变异 TDT(rvTDT)进行了基于基因的分析(罕见变异),后者应用了多种适用于 TDT 的基于基因的负担测试,包括罕见变异负担测试。应用 GWAS 标准阈值 (5.0 × 10) 对常见变异进行分析,我们的基于 SNV 的分析未返回任何全基因组显著的 SNV。罕见变异基因 TDT 分析确定了许多在 cSLE 患者中显著富集的新基因,包括 DNA 修复蛋白 HNRNPUL2 和纤毛运动蛋白 DNAH11 等。我们的方法在一个具有多种祖先背景的儿童发病狼疮队列中确定了几个新的 SLE 易感基因。
