利用荧光计时器揭示 T 细胞动态:从 Tocky 系统获得的启示。

IF 1.6 Q4 BIOPHYSICS Biophysics and physicobiology Pub Date : 2024-02-16 eCollection Date: 2024-01-01 DOI:10.2142/biophysico.bppb-v21.s010
Masahiro Ono
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引用次数: 0

摘要

了解 T 细胞转录的时间动态对于深入了解免疫细胞的功能和发育至关重要。在本研究中,我们展示了细胞动力学和活动定时器(Tocky)系统的特点,该系统利用荧光定时器蛋白作为报告器,能够分析细胞活动和分化的时间动态,荧光定时器蛋白在已知的动力学过程中会自发地将其发射光谱从蓝色变为红色荧光。当前的研究考察了 Tocky 系统的特性,重点介绍了定时器-角度方法,这是 Tocky 分析的核心算法,通过三角变换将定时器蓝光和红光荧光转换为定时器角度和强度。重要的是,Tocky 通过两个阶段的测量来分析单个细胞内与时间相关的事件,区分(1) 时域内细胞活动和分化的时序,(2) 频域内的转录频率。从时间测量到频率分析的过渡,特别是在连接这两个域的持久位点上的过渡,凸显了该系统在托基测量和分析中的独特属性。耐人寻味的是,利用 Foxp3-Tocky 和 Nr4a3-Tocky 模型分别在活化的调节性 T 细胞(Treg)和致病性 T 细胞中观察到的持续转录活动可能具有独特的生物学特征。总之,Tocky 系统能为我们进一步了解 T 细胞动态和功能提供重要数据。
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Unraveling T-cell dynamics using fluorescent timer: Insights from the Tocky system.

Understanding the temporal dynamics of T-cell transcription is crucial for insights into immune cell function and development. In this study, we show the features of the Timer-of-Cell-Kinetics-and-Activity (Tocky) system, which enables analysis of temporal dynamics of cell activities and differentiation, leveraging Fluorescent Timer protein, which spontaneously changes its emission spectrum from blue to red fluorescence in known kinetics, as reporters. The current study examines the properties of the Tocky system, highlighting the Timer-Angle approach, which is a core algorithm of Tocky analysis and converts Timer Blue and Red fluorescence into Timer Angle and Intensity by trigonometric transformation. Importantly, Tocky analyzes time-related events within individual cells by the two phases of measurements, distinguishing between (1) the temporal sequence of cellular activities and differentiation within the time domain, and (2) the transcription frequency within the frequency domain. The transition from time measurement to frequency analysis, particularly at the Persistent locus that bridges these domains, highlights that system's unique property in what is measured and analyzed by Tocky. Intriguingly, the sustained transcriptional activities observed in cells at the Persistent locus may have unique biological features as demonstrated in activated regulatory T-cells (Treg) and pathogenic T-cells, respectively, using Foxp3-Tocky and Nr4a3-Tocky models. In conclusion, the Tocky system can provide crucial data for advancing our understanding of T-cell dynamics and function.

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