T 细胞耗竭的表观遗传调控。

Epigenetic regulation of T cell exhaustion.

机构信息

Department of Computer Science, Stanford University, Stanford, CA, USA.

Gladstone-UCSF Institute of Genomic Immunology, San Francisco, CA, USA.

出版信息

Nat Immunol. 2022 Jun;23(6):848-860. doi: 10.1038/s41590-022-01224-z. Epub 2022 May 27.

DOI:10.1038/s41590-022-01224-z

PMID:35624210

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10439681/

Abstract

Chronic antigen stimulation during viral infections and cancer can lead to T cell exhaustion, which is characterized by reduced effector function and proliferation, and the expression of inhibitory immune checkpoint receptors. Recent studies have demonstrated that T cell exhaustion results in wholescale epigenetic remodeling that confers phenotypic stability to these cells and prevents T cell reinvigoration by checkpoint blockade. Here, we review foundational technologies to profile the epigenome at multiple scales, including mapping the locations of transcription factors and histone modifications, DNA methylation and three-dimensional genome conformation. We discuss how these technologies have elucidated the development and epigenetic regulation of exhausted T cells and functional implications across viral infection, cancer, autoimmunity and engineered T cell therapies. Finally, we cover emerging multi-omic and genome engineering technologies, current and upcoming opportunities to apply these to T cell exhaustion, and therapeutic opportunities for T cell engineering in the clinic.

摘要

慢性抗原刺激在病毒感染和癌症中可导致 T 细胞耗竭，其特征为效应功能和增殖降低，以及抑制性免疫检查点受体的表达。最近的研究表明，T 细胞耗竭导致全基因组表观遗传重塑，赋予这些细胞表型稳定性，并阻止检查点阻断使 T 细胞恢复活力。在这里，我们回顾了在多个尺度上进行表观基因组分析的基础技术，包括绘制转录因子和组蛋白修饰、DNA 甲基化和三维基因组构象的位置图。我们讨论了这些技术如何阐明耗竭 T 细胞的发育和表观遗传调控，以及在病毒感染、癌症、自身免疫和工程 T 细胞治疗中的功能意义。最后，我们介绍了新兴的多组学和基因组工程技术，当前和即将出现的将这些技术应用于 T 细胞耗竭的机会，以及在临床中进行 T 细胞工程的治疗机会。

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