Science for Life Laboratory, Department of Medical Biochemistry and Microbiology, Uppsala University, Uppsala, Sweden.
Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden.
Ann Rheum Dis. 2015 Mar;74(3):e14. doi: 10.1136/annrheumdis-2013-204909. Epub 2014 Feb 17.
To perform fine mapping of the PXK locus associated with systemic lupus erythematosus (SLE) and study functional effects that lead to susceptibility to the disease.
Linkage disequilibrium (LD) mapping was conducted by using 1251 SNPs (single nucleotide polymorphism) covering a 862 kb genomic region on 3p14.3 comprising the PXK locus in 1467 SLE patients and 2377 controls of European origin. Tag SNPs and genotypes imputed with IMPUTE2 were tested for association by using SNPTEST and PLINK. The expression QTLs data included three independent datasets for lymphoblastoid cells of European donors: HapMap3, MuTHER and the cross-platform eQTL catalogue. Correlation analysis of eQTLs was performed using Vassarstats. Alternative splicing for the PXK gene was analysed on mRNA from PBMCs.
Fine mapping revealed long-range LD (>200 kb) extended over the ABHD6, RPP14, PXK, and PDHB genes on 3p14.3. The highly correlated variants tagged an SLE-associated haplotype that was less frequent in the patients compared with the controls (OR=0.89, p=0.00684). A robust correlation between the association with SLE and enhanced expression of ABHD6 gene was revealed, while neither expression, nor splicing alterations associated with SLE susceptibility were detected for PXK. The SNP allele frequencies as well as eQTL pattern analysed in the CEU and CHB HapMap3 populations indicate that the SLE association and the effect on ABHD6 expression are specific to Europeans.
These results confirm the genetic association of the locus 3p14.3 with SLE in Europeans and point to the ABHD6 and not PXK, as the major susceptibility gene in the region. We suggest a pathogenic mechanism mediated by the upregulation of ABHD6 in individuals carrying the SLE-risk variants.
对与系统性红斑狼疮(SLE)相关的 PXK 基因座进行精细定位,并研究导致疾病易感性的功能效应。
通过使用覆盖包含 PXK 基因座的 3p14.3 上的 862kb 基因组区域的 1251 个 SNP(单核苷酸多态性),在 1467 名欧洲血统的 SLE 患者和 2377 名对照中进行连锁不平衡(LD)作图。使用 SNPTEST 和 PLINK 测试标签 SNP 和 IMPUTE2 推断的基因型与关联。表达 QTL 数据包括三个独立的欧洲供体淋巴母细胞数据集:HapMap3、MuTHER 和跨平台 eQTL 目录。使用 Vassarstats 进行 eQTL 的相关性分析。使用 PBMCs 的 mRNA 分析 PXK 基因的可变剪接。
精细映射显示,3p14.3 上的 ABHD6、RPP14、PXK 和 PDHB 基因上的长程 LD(>200kb)扩展。高度相关的变体标记了与 SLE 相关的单倍型,在患者中比对照中更不常见(OR=0.89,p=0.00684)。揭示了与 SLE 关联和 ABHD6 基因表达增强之间的稳健相关性,而在 PXK 中未检测到与 SLE 易感性相关的表达或剪接改变。在 CEU 和 CHB HapMap3 群体中分析的 SNP 等位基因频率和 eQTL 模式表明,SLE 关联和对 ABHD6 表达的影响是欧洲特有的。
这些结果证实了欧洲人 3p14.3 基因座与 SLE 的遗传关联,并指出 ABHD6 而不是 PXK 是该区域的主要易感基因。我们提出了一种由携带 SLE 风险变体的个体中 ABHD6 的上调介导的致病机制。
