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Notch1 和 BCL11B 具有不同的功能,介导人类 γδ/αβ T 细胞的发育。

Distinct Notch1 and BCL11B requirements mediate human γδ/αβ T cell development.

机构信息

Department of Diagnostic Sciences, Ghent University, Ghent, Belgium.

Department of Biomolecular Medicine, Ghent University, Ghent, Belgium.

出版信息

EMBO Rep. 2020 May 6;21(5):e49006. doi: 10.15252/embr.201949006. Epub 2020 Apr 7.

DOI:10.15252/embr.201949006
PMID:32255245
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7202205/
Abstract

γδ and αβ T cells have unique roles in immunity and both originate in the thymus from T-lineage committed precursors through distinct but unclear mechanisms. Here, we show that Notch1 activation is more stringently required for human γδ development compared to αβ-lineage differentiation and performed paired mRNA and miRNA profiling across 11 discrete developmental stages of human T cell development in an effort to identify the potential Notch1 downstream mechanism. Our data suggest that the miR-17-92 cluster is a Notch1 target in immature thymocytes and that miR-17 can restrict BCL11B expression in these Notch-dependent T cell precursors. We show that enforced miR-17 expression promotes human γδ T cell development and, consistently, that BCL11B is absolutely required for αβ but less for γδ T cell development. This study suggests that human γδ T cell development is mediated by a stage-specific Notch-driven negative feedback loop through which miR-17 temporally restricts BCL11B expression and provides functional insights into the developmental role of the disease-associated genes BCL11B and the miR-17-92 cluster in a human context.

摘要

γδ 和 αβ T 细胞在免疫中具有独特的作用,它们都起源于胸腺中的 T 细胞谱系,通过不同但尚不清楚的机制从 T 细胞谱系定向前体分化而来。在这里,我们发现与 αβ 谱系分化相比,Notch1 激活在人类 γδ 发育中更严格地需要,我们还对人类 T 细胞发育的 11 个离散发育阶段进行了配对的 mRNA 和 miRNA 分析,以试图确定潜在的 Notch1 下游机制。我们的数据表明,miR-17-92 簇是不成熟胸腺细胞中 Notch1 的靶标,并且 miR-17 可以限制这些依赖 Notch 的 T 细胞前体中的 BCL11B 表达。我们表明,强制表达 miR-17 可促进人类 γδ T 细胞发育,并且 BCL11B 绝对是 αβ T 细胞发育所必需的,但对 γδ T 细胞发育的要求较低。这项研究表明,人类 γδ T 细胞的发育是由 Notch 驱动的负反馈回路介导的,该回路通过 miR-17 暂时限制 BCL11B 的表达,并在人类背景下为与疾病相关的基因 BCL11B 和 miR-17-92 簇在发育中的作用提供了功能见解。

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