全基因组分析确定了狼疮性肾炎与调节组织缺氧和1型干扰素反应的基因甲基化差异之间的关联。

Genome-wide profiling identifies associations between lupus nephritis and differential methylation of genes regulating tissue hypoxia and type 1 interferon responses.

作者信息

Mok Amanda, Solomon Olivia, Nayak Renuka R, Coit Patrick, Quach Hong L, Nititham Joanne, Sawalha Amr H, Barcellos Lisa F, Criswell Lindsey A, Chung Sharon A

机构信息

Genetic Epidemiology and Genomics Laboratory, School of Public Health, University of California, Berkeley, Berkeley, California, USA.

Russell/Engleman Rheumatology Research Center, University of California, San Francisco , San Francisco, California , USA.

出版信息

Lupus Sci Med. 2016 Dec 7;3(1):e000183. doi: 10.1136/lupus-2016-000183. eCollection 2016.

DOI:10.1136/lupus-2016-000183

PMID:28074145

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5174796/

Abstract

OBJECTIVE

Previous studies have shown that differential DNA methylation is associated with SLE susceptibility. How DNA methylation affects the clinical heterogeneity of SLE has not been fully defined. We conducted this study to identify differentially methylated CpG sites associated with nephritis among women with SLE.

METHODS

The methylation status of 428 229 CpG sites across the genome was characterised for peripheral blood cells from 322 women of European descent with SLE, 80 of whom had lupus nephritis, using the Illumina HumanMethylation450 BeadChip. Multivariable linear regression adjusting for population substructure and leucocyte cell proportions was used to identify differentially methylated sites associated with lupus nephritis. The influence of genetic variation on methylation status was investigated using data from a genome-wide association study of SLE. Pathway analyses were used to identify biological processes associated with lupus nephritis.

RESULTS

We identified differential methylation of 19 sites in 18 genomic regions that was associated with nephritis among patients with SLE (false discovery rate q<0.05). Associations for four sites in , and were replicated when examining methylation data derived from CD4+ T cells collected from an independent set of patients with SLE. These associations were not driven by genetic variation within or around the genomic regions. In addition, genes associated with lupus nephritis in a prior genome-wide association study were not differentially methylated in this epigenome-wide study. Pathway analysis indicated that biological processes involving type 1 interferon responses and the development of the immune system were associated with nephritis in patients with SLE.

CONCLUSIONS

Differential methylation of genes regulating the response to tissue hypoxia and interferon-mediated signalling is associated with lupus nephritis among women with SLE. These findings have not been identified in genetic studies of lupus nephritis, suggesting that epigenome-wide association studies can help identify the genomic differences that underlie the clinical heterogeneity of SLE.

摘要

目的

既往研究表明，DNA甲基化差异与系统性红斑狼疮（SLE）易感性相关。DNA甲基化如何影响SLE的临床异质性尚未完全明确。我们开展本研究以鉴定SLE女性患者中与肾炎相关的差异甲基化CpG位点。

方法

使用Illumina HumanMethylation450 BeadChip对322名欧洲裔SLE女性患者外周血细胞中全基因组428229个CpG位点的甲基化状态进行表征，其中80人患有狼疮性肾炎。采用多变量线性回归校正群体亚结构和白细胞细胞比例，以鉴定与狼疮性肾炎相关的差异甲基化位点。利用SLE全基因组关联研究的数据，研究基因变异对甲基化状态的影响。采用通路分析来鉴定与狼疮性肾炎相关的生物学过程。

结果

我们在18个基因组区域中鉴定出19个位点的甲基化差异，这些差异与SLE患者的肾炎相关（错误发现率q<0.05）。在检查从另一组独立SLE患者收集的CD4+T细胞衍生的甲基化数据时，对位于、和中的四个位点的关联进行了重复验证。这些关联并非由基因组区域内或其周围的基因变异驱动。此外，在先前的全基因组关联研究中与狼疮性肾炎相关的基因在本表观基因组范围研究中并未发生差异甲基化。通路分析表明，涉及1型干扰素反应和免疫系统发育的生物学过程与SLE患者的肾炎相关。

结论

调节对组织缺氧反应和干扰素介导信号传导的基因的差异甲基化与SLE女性患者的狼疮性肾炎相关。这些发现在狼疮性肾炎的遗传研究中尚未被发现，表明表观基因组范围关联研究有助于识别构成SLE临床异质性基础的基因组差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b6d8/5174796/d97135b3a163/lupus2016000183f01.jpg

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全基因组分析确定了狼疮性肾炎与调节组织缺氧和1型干扰素反应的基因甲基化差异之间的关联。

Genome-wide profiling identifies associations between lupus nephritis and differential methylation of genes regulating tissue hypoxia and type 1 interferon responses.

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