对原代T细胞中精氨酸甲基化的全面鉴定揭示了其在细胞信号传导中的调节作用。

Comprehensive identification of arginine methylation in primary T cells reveals regulatory roles in cell signalling.

作者信息

Geoghegan Vincent, Guo Ailan, Trudgian David, Thomas Benjamin, Acuto Oreste

机构信息

Laboratory of T cell signalling, Sir William Dunn School of Pathology, University of Oxford, Oxford OX1 3RE, UK.

Cell Signaling Technology Inc., Trask Lane, Danvers, Massachusetts 01923, USA.

出版信息

Nat Commun. 2015 Apr 7;6:6758. doi: 10.1038/ncomms7758.

DOI:10.1038/ncomms7758

PMID:25849564

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4396391/

Abstract

The impact of protein arginine methylation on the regulation of immune functions is virtually unknown. Here, we apply a novel method—isomethionine methyl-SILAC—coupled with antibody-mediated arginine-methylated peptide enrichment to identify methylated peptides in human T cells by mass spectrometry. This approach allowed the identification of 2,502 arginine methylation sites from 1,257 tissue-specific and housekeeping proteins. We find that components of T cell antigen receptor signal machinery and several key transcription factors that regulate T cell fate determination are methylated on arginine. Moreover, we demonstrate changes in arginine methylation stoichiometry during cellular stimulation in a subset of proteins critical to T cell differentiation. Our data suggest that protein arginine methyltransferases exert key regulatory roles in T cell activation and differentiation, opening a new field of investigation in T cell biology.

摘要

蛋白质精氨酸甲基化对免疫功能调节的影响实际上尚不清楚。在此，我们应用一种新方法——异亮氨酸甲基化-SILAC——结合抗体介导的精氨酸甲基化肽富集，通过质谱法鉴定人T细胞中的甲基化肽。这种方法能够从1257种组织特异性蛋白和管家蛋白中鉴定出2502个精氨酸甲基化位点。我们发现，T细胞抗原受体信号机制的组成成分以及几个调节T细胞命运决定的关键转录因子在精氨酸上发生了甲基化。此外，我们证明了在对T细胞分化至关重要的一部分蛋白质中，细胞刺激过程中精氨酸甲基化化学计量发生了变化。我们的数据表明，蛋白质精氨酸甲基转移酶在T细胞活化和分化中发挥关键调节作用，为T细胞生物学开辟了一个新的研究领域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4a11/4396391/abe068cd3ab3/ncomms7758-f1.jpg

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对原代T细胞中精氨酸甲基化的全面鉴定揭示了其在细胞信号传导中的调节作用。

Comprehensive identification of arginine methylation in primary T cells reveals regulatory roles in cell signalling.

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