Association of TRAIL receptor with phosphatase SHP-1 enables repressing T cell receptor signaling and T cell activation through inactivating Lck.

IF 9 2区医学 Q1 CELL BIOLOGY Journal of Biomedical Science Pub Date : 2024-03-27 DOI:10.1186/s12929-024-01023-8

I-Tsu Chyuan, Hsiu-Jung Liao, Tse-Hua Tan, Huai-Chia Chuang, Yu-Chuan Chu, Meng-Hsun Pan, Chien-Sheng Wu, Ching-Liang Chu, Bor-Ching Sheu, Ping-Ning Hsu

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Abstract

Background: T cell receptor (TCR) signaling and T cell activation are tightly regulated by gatekeepers to maintain immune tolerance and avoid autoimmunity. The TRAIL receptor (TRAIL-R) is a TNF-family death receptor that transduces apoptotic signals to induce cell death. Recent studies have indicated that TRAIL-R regulates T cell-mediated immune responses by directly inhibiting T cell activation without inducing apoptosis; however, the distinct signaling pathway that regulates T cell activation remains unclear. In this study, we screened for intracellular TRAIL-R-binding proteins within T cells to explore the novel signaling pathway transduced by TRAIL-R that directly inhibits T cell activation.

Methods: Whole-transcriptome RNA sequencing was used to identify gene expression signatures associated with TRAIL-R signaling during T cell activation. High-throughput screening with mass spectrometry was used to identify the novel TRAIL-R binding proteins within T cells. Co-immunoprecipitation, lipid raft isolation, and confocal microscopic analyses were conducted to verify the association between TRAIL-R and the identified binding proteins within T cells.

Results: TRAIL engagement downregulated gene signatures in TCR signaling pathways and profoundly suppressed phosphorylation of TCR proximal tyrosine kinases without inducing cell death. The tyrosine phosphatase SHP-1 was identified as the major TRAIL-R binding protein within T cells, using high throughput mass spectrometry-based proteomics analysis. Furthermore, Lck was co-immunoprecipitated with the TRAIL-R/SHP-1 complex in the activated T cells. TRAIL engagement profoundly inhibited phosphorylation of Lck (Y394) and suppressed the recruitment of Lck into lipid rafts in the activated T cells, leading to the interruption of proximal TCR signaling and subsequent T cell activation.

Conclusions: TRAIL-R associates with phosphatase SHP-1 and transduces a unique and distinct immune gatekeeper signal to repress TCR signaling and T cell activation via inactivating Lck. Thus, our results define TRAIL-R as a new class of immune checkpoint receptors for restraining T cell activation, and TRAIL-R/SHP-1 axis can serve as a potential therapeutic target for immune-mediated diseases.

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TRAIL 受体与磷酸酶 SHP-1 的结合可通过使 Lck 失活来抑制 T 细胞受体信号传导和 T 细胞活化。

背景：T细胞受体（TCR）信号传导和T细胞活化受到守门员的严格调控，以维持免疫耐受并避免自身免疫。TRAIL 受体（TRAIL-R）是 TNF 家族的死亡受体，可传递凋亡信号以诱导细胞死亡。最近的研究表明，TRAIL-R 通过直接抑制 T 细胞活化而不诱导细胞凋亡来调节 T 细胞介导的免疫反应；然而，调节 T 细胞活化的独特信号通路仍不清楚。在这项研究中，我们筛选了T细胞内的TRAIL-R结合蛋白，以探索TRAIL-R直接抑制T细胞活化的新型信号通路：方法：采用全转录组RNA测序技术鉴定T细胞活化过程中与TRAIL-R信号转导相关的基因表达特征。方法：采用全转录组 RNA 测序鉴定 T 细胞活化过程中与 TRAIL-R 信号相关的基因表达特征。采用质谱法进行高通量筛选，鉴定 T 细胞内的新型 TRAIL-R 结合蛋白。共免疫沉淀、脂筏分离和共聚焦显微镜分析验证了T细胞内TRAIL-R与已确定的结合蛋白之间的关联：结果：TRAIL 参与下调了 TCR 信号通路中的基因特征，并显著抑制了 TCR 近端酪氨酸激酶的磷酸化，但不会诱导细胞死亡。通过基于高通量质谱的蛋白质组学分析，发现酪氨酸磷酸酶SHP-1是T细胞中主要的TRAIL-R结合蛋白。此外，在活化的T细胞中，Lck与TRAIL-R/SHP-1复合物共免疫沉淀。TRAIL的参与极大地抑制了Lck（Y394）的磷酸化，并抑制了Lck在活化T细胞脂质筏中的招募，从而导致近端TCR信号的中断和随后的T细胞活化：结论：TRAIL-R与磷酸酶SHP-1结合，通过抑制Lck的活性，传递一种独特的免疫守门员信号，抑制TCR信号的传递和T细胞的活化。因此，我们的研究结果将 TRAIL-R 定义为抑制 T 细胞活化的一类新型免疫检查点受体，TRAIL-R/SHP-1 轴可作为免疫介导疾病的潜在治疗靶点。

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来源期刊

Journal of Biomedical Science 医学-医学：研究与实验

CiteScore

18.50

自引率

0.90%

发文量

审稿时长

1 months

期刊介绍： The Journal of Biomedical Science is an open access, peer-reviewed journal that focuses on fundamental and molecular aspects of basic medical sciences. It emphasizes molecular studies of biomedical problems and mechanisms. The National Science and Technology Council (NSTC), Taiwan supports the journal and covers the publication costs for accepted articles. The journal aims to provide an international platform for interdisciplinary discussions and contribute to the advancement of medicine. It benefits both readers and authors by accelerating the dissemination of research information and providing maximum access to scholarly communication. All articles published in the Journal of Biomedical Science are included in various databases such as Biological Abstracts, BIOSIS, CABI, CAS, Citebase, Current contents, DOAJ, Embase, EmBiology, and Global Health, among others.