Nur77-Tempo小鼠显示了T细胞稳态抗原识别能力。

Thomas A E Elliot, Emma K Jennings, David A J Lecky, Sophie Rouvray, Gillian M Mackie, Lisa Scarfe, Lozan Sheriff, Masahiro Ono, Kendle M Maslowski, David Bending
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摘要

在淋巴细胞中,Nr4a 基因的表达受抗原受体信号的特异性调控,使其成为远端 T 细胞受体(TCR)报告的理想靶标。Nr4a3-细胞动力学和活性定时器(Tocky)小鼠是一种开创性的工具,利用荧光定时器蛋白(FT)报告 TCR 驱动的 Nr4a3 表达。荧光定时器蛋白(FT)在翻译后其发射光谱会发生随时间变化的转变,从而可以在时间上报告转录事件。我们最近的工作表明,与 Nr4a3 相比,Nur4a1/Nur77 可能是对远端 TCR 信号更敏感的基因,因此我们产生了在 Nur77 调控下表达 FT 的 Nur77-Timer-在淋巴细胞中快速表达(Tempo)小鼠。我们验证了 Nur77-Tempo 小鼠报告 TCR 和 B 细胞受体信号的能力,并研究了 Nur77-FT 表达的调控信号。我们发现,Nur77-FT 对低强度的 TCR 信号很敏感,其亮度随 TCR 信号强度而分级。Nur77-FT能检测到胸腺中的正选择信号,对FT表达的分析表明,正选择信号往往具有持久性,大多数胸腺Treg都表达FT蓝。我们发现,脾脏中活跃的 TCR 信号频率很低,但 CD69+ 淋巴 T 细胞富集了 FT 蓝+ 红+ T 细胞,这表明 TCR 信号频繁出现。在非淋巴组织中,我们看到 FT 蛋白与 CD69 表达分离,这表明组织驻留与强直性 TCR 信号无关。因此,Nur77-Tempo 小鼠将 Tocky 创新的时间动态与 Nr4a1 对较低 TCR 信号强度的敏感性相结合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Nur77-Tempo mice reveal T cell steady state antigen recognition.

Nur77-Tempo mice reveal T cell steady state antigen recognition.

Nur77-Tempo mice reveal T cell steady state antigen recognition.

Nur77-Tempo mice reveal T cell steady state antigen recognition.

In lymphocytes, Nr4a gene expression is specifically regulated by antigen receptor signalling, making them ideal targets for use as distal T cell receptor (TCR) reporters. Nr4a3-Timer of cell kinetics and activity (Tocky) mice are a ground-breaking tool to report TCR-driven Nr4a3 expression using Fluorescent Timer protein (FT). FT undergoes a time-dependent shift in its emission spectrum following translation, allowing for the temporal reporting of transcriptional events. Our recent work suggested that Nr4a1/Nur77 may be a more sensitive gene to distal TCR signals compared to Nr4a3, so we, therefore, generated Nur77-Timer-rapidly-expressed-in-lymphocytes (Tempo) mice that express FT under the regulation of Nur77. We validated the ability of Nur77-Tempo mice to report TCR and B cell receptor signals and investigated the signals regulating Nur77-FT expression. We found that Nur77-FT was sensitive to low-strength TCR signals, and its brightness was graded in response to TCR signal strength. Nur77-FT detected positive selection signals in the thymus, and analysis of FT expression revealed that positive selection signals are often persistent in nature, with most thymic Treg expressing FT Blue. We found that active TCR signals in the spleen are low frequency, but CD69+ lymphoid T cells are enriched for FT Blue+ Red+ T cells, suggesting frequent TCR signalling. In non-lymphoid tissue, we saw a dissociation of FT protein from CD69 expression, indicating that tissue residency is not associated with tonic TCR signals. Nur77-Tempo mice, therefore, combine the temporal dynamics from the Tocky innovation with increased sensitivity of Nr4a1 to lower TCR signal strengths.

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