通过测序对单细胞蛋白质分泌进行时间分辨评估。

Time-resolved assessment of single-cell protein secretion by sequencing.

机构信息

Department of Biomedical Engineering, College of Design and Engineering, National University of Singapore, Singapore, Singapore.

Institute for Health Innovation and Technology, National University of Singapore, Singapore, Singapore.

出版信息

Nat Methods. 2023 May;20(5):723-734. doi: 10.1038/s41592-023-01841-y. Epub 2023 Apr 10.

DOI:10.1038/s41592-023-01841-y

PMID:37037998

Abstract

Secreted proteins play critical roles in cellular communication. Methods enabling concurrent measurement of cellular protein secretion, phenotypes and transcriptomes are still unavailable. Here we describe time-resolved assessment of protein secretion from single cells by sequencing (TRAPS-seq). Released proteins are trapped onto the cell surface and probed by oligonucleotide-barcoded antibodies before being simultaneously sequenced with transcriptomes in single cells. We demonstrate that TRAPS-seq helps unravel the phenotypic and transcriptional determinants of the secretion of pleiotropic T1 cytokines (IFNγ, IL-2 and TNF) in activated T cells. In addition, we show that TRAPS-seq can be used to track the secretion of multiple cytokines over time, uncovering unique molecular signatures that govern the dynamics of single-cell cytokine secretions. Our results revealed that early central memory T cells with CD45RA expression (T) are important in both the production and maintenance of polyfunctional cytokines. TRAPS-seq presents a unique tool for seamless integration of secretomics measurements with multi-omics profiling in single cells.

摘要

分泌蛋白在细胞通讯中发挥着关键作用。但目前仍缺乏能够同时测量细胞蛋白分泌、表型和转录组的方法。在这里，我们描述了通过测序（TRAPS-seq）对单细胞蛋白分泌进行时分辨析的方法。释放的蛋白被捕获到细胞表面，然后用带有寡核苷酸条码的抗体进行探测，之后与单细胞中的转录组同时进行测序。我们证明，TRAPS-seq 有助于揭示激活的 T 细胞中多效性 T1 细胞因子（IFNγ、IL-2 和 TNF）分泌的表型和转录决定因素。此外，我们还表明，TRAPS-seq 可用于随时间追踪多种细胞因子的分泌，揭示控制单细胞细胞因子分泌动力学的独特分子特征。我们的研究结果表明，具有 CD45RA 表达（T 细胞）的早期中央记忆 T 细胞在多功能细胞因子的产生和维持中起着重要作用。TRAPS-seq 为在单细胞中无缝整合分泌组学测量和多组学分析提供了一种独特的工具。

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通过测序对单细胞蛋白质分泌进行时间分辨评估。

Time-resolved assessment of single-cell protein secretion by sequencing.

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