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单细胞 eQTL 模型揭示疾病相关位点的 T 细胞状态依赖性动态变化。

Single-cell eQTL models reveal dynamic T cell state dependence of disease loci.

机构信息

Center for Data Sciences, Brigham and Women's Hospital and Harvard Medical School, Boston, MA, USA.

Division of Rheumatology, Inflammation, and Immunity, Department of Medicine, Brigham and Women's Hospital and Harvard Medical School, Boston, MA, USA.

出版信息

Nature. 2022 Jun;606(7912):120-128. doi: 10.1038/s41586-022-04713-1. Epub 2022 May 11.

DOI:10.1038/s41586-022-04713-1
PMID:35545678
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9842455/
Abstract

Non-coding genetic variants may cause disease by modulating gene expression. However, identifying these expression quantitative trait loci (eQTLs) is complicated by differences in gene regulation across fluid functional cell states within cell types. These states-for example, neurotransmitter-driven programs in astrocytes or perivascular fibroblast differentiation-are obscured in eQTL studies that aggregate cells. Here we modelled eQTLs at single-cell resolution in one complex cell type: memory T cells. Using more than 500,000 unstimulated memory T cells from 259 Peruvian individuals, we show that around one-third of 6,511 cis-eQTLs had effects that were mediated by continuous multimodally defined cell states, such as cytotoxicity and regulatory capacity. In some loci, independent eQTL variants had opposing cell-state relationships. Autoimmune variants were enriched in cell-state-dependent eQTLs, including risk variants for rheumatoid arthritis near ORMDL3 and CTLA4; this indicates that cell-state context is crucial to understanding potential eQTL pathogenicity. Moreover, continuous cell states explained more variation in eQTLs than did conventional discrete categories, such as CD4 versus CD8, suggesting that modelling eQTLs and cell states at single-cell resolution can expand insight into gene regulation in functionally heterogeneous cell types.

摘要

非编码遗传变异可能通过调节基因表达引起疾病。然而,由于不同细胞类型内的流体功能细胞状态下的基因调控存在差异,因此识别这些表达数量性状基因座(eQTLs)变得复杂。这些状态——例如星形胶质细胞中的神经递质驱动程序或血管周围成纤维细胞分化——在聚合细胞的 eQTL 研究中被掩盖。在这里,我们以一种复杂的细胞类型——记忆 T 细胞——为例,在单细胞分辨率下对 eQTL 进行了建模。我们使用来自 259 名秘鲁个体的超过 50 万个未受刺激的记忆 T 细胞,表明大约三分之一的 6511 个顺式 eQTL 的效应是由连续的多模态定义的细胞状态介导的,例如细胞毒性和调节能力。在一些基因座中,独立的 eQTL 变体与细胞状态之间存在相反的关系。自身免疫变体在依赖细胞状态的 eQTL 中富集,包括 ORMDL3 和 CTLA4 附近的类风湿关节炎风险变体;这表明细胞状态背景对于理解潜在的 eQTL 致病性至关重要。此外,连续细胞状态比传统的离散类别(例如 CD4 与 CD8)解释了更多的 eQTL 变异,这表明在单细胞分辨率下对 eQTL 和细胞状态进行建模可以扩展对功能异质细胞类型中基因调控的理解。

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