TCF1 的可逆、可调控表观遗传沉默赋予 T 细胞记忆决策的灵活性。

Reversible, tunable epigenetic silencing of TCF1 generates flexibility in the T cell memory decision.

机构信息

Department of Bioengineering, University of Washington, Seattle, WA 98195, USA.

Emory Vaccine Center and Department of Microbiology and Immunology, Emory University School of Medicine, Atlanta, GA 30322, USA.

出版信息

Immunity. 2024 Feb 13;57(2):271-286.e13. doi: 10.1016/j.immuni.2023.12.006. Epub 2024 Jan 31.

DOI:10.1016/j.immuni.2023.12.006

PMID:38301652

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10922671/

Abstract

The immune system encodes information about the severity of a pathogenic threat in the quantity and type of memory cells it forms. This encoding emerges from lymphocyte decisions to maintain or lose self-renewal and memory potential during a challenge. By tracking CD8 T cells at the single-cell and clonal lineage level using time-resolved transcriptomics, quantitative live imaging, and an acute infection model, we find that T cells will maintain or lose memory potential early after antigen recognition. However, following pathogen clearance, T cells may regain memory potential if initially lost. Mechanistically, this flexibility is implemented by a stochastic cis-epigenetic switch that tunably and reversibly silences the memory regulator, TCF1, in response to stimulation. Mathematical modeling shows how this flexibility allows memory T cell numbers to scale robustly with pathogen virulence and immune response magnitudes. We propose that flexibility and stochasticity in cellular decisions ensure optimal immune responses against diverse threats.

摘要

免疫系统通过形成记忆细胞的数量和类型来编码关于病原体威胁严重程度的信息。这种编码源自淋巴细胞在挑战期间维持或丧失自我更新和记忆潜能的决策。通过使用时间分辨转录组学、定量活细胞成像和急性感染模型在单细胞和克隆谱系水平上追踪 CD8 T 细胞，我们发现 T 细胞在抗原识别后不久就会维持或丧失记忆潜能。然而，在病原体清除后，如果最初丧失，T 细胞可能会重新获得记忆潜能。从机制上讲，这种灵活性是通过顺式表观遗传开关实现的，该开关可响应刺激，以可调且可逆的方式沉默记忆调节剂 TCF1。数学模型表明，这种灵活性如何使记忆 T 细胞数量能够与病原体毒性和免疫反应幅度稳健地缩放。我们提出，细胞决策的灵活性和随机性可确保针对各种威胁的最佳免疫反应。

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