Milcah C. Scott, Zoë Steier, Mark J. Pierson, J. Michael Stolley, Stephen D. O’Flanagan, Andrew G. Soerens, Sathi P. Wijeyesinghe, Lalit K. Beura, Gayathri Dileepan, Brandon J. Burbach, Marco Künzli, Clare F. Quarnstrom, Olivia C. Ghirardelli Smith, Eyob Weyu, Sara E. Hamilton, Vaiva Vezys, Alex K. Shalek, David Masopust
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引用次数: 0
摘要
组织驻留记忆CD8+ T (Trm)细胞控制感染和癌症,并被定义为缺乏再循环。由于迁移难以评估,居住通常是通过假定的居住定义表型和基因标记代理来推断的。我们通过整合小鼠异种共生、多器官取样、血管内染色、急性和慢性感染模型、脏小鼠和单细胞多组学来评估驻留代理的有效性和普遍性。我们报道记忆T细胞整合了一系列输入-位置,刺激历史,抗原持久性和环境-导致无数的分化状态。因此,当前的trm定义方法具有隐含的局限性,并且可能不存在通用的特定于住所的签名。然而,我们定义了基因和表型,这些基因和表型与我们测试的广泛条件下的组织驻留更紧密相关。该研究揭示了T细胞对各种刺激和环境输入的广泛适应性,并为评估Trm细胞提供了实用建议。
Deep profiling deconstructs features associated with memory CD8+ T cell tissue residence
Tissue-resident memory CD8+ T (Trm) cells control infections and cancer and are defined by their lack of recirculation. Because migration is difficult to assess, residence is usually inferred by putative residence-defining phenotypic and gene signature proxies. We assessed the validity and universality of residence proxies by integrating mouse parabiosis, multi-organ sampling, intravascular staining, acute and chronic infection models, dirty mice, and single-cell multi-omics. We report that memory T cells integrate a constellation of inputs—location, stimulation history, antigen persistence, and environment—resulting in myriad differentiation states. Thus, current Trm-defining methodologies have implicit limitations, and a universal residence-specific signature may not exist. However, we define genes and phenotypes that more robustly correlate with tissue residence across the broad range of conditions that we tested. This study reveals broad adaptability of T cells to diverse stimulatory and environmental inputs and provides practical recommendations for evaluating Trm cells.
期刊介绍:
Immunity is a publication that focuses on publishing significant advancements in research related to immunology. We encourage the submission of studies that offer groundbreaking immunological discoveries, whether at the molecular, cellular, or whole organism level. Topics of interest encompass a wide range, such as cancer, infectious diseases, neuroimmunology, autoimmune diseases, allergies, mucosal immunity, metabolic diseases, and homeostasis.
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