前沿：流感诱导的 CD11alo 气道 CD103+组织驻留记忆 T 细胞在体内 TCR 刺激后 IFN-γ 产生受损。

Cutting Edge: Influenza-Induced CD11alo Airway CD103+ Tissue Resident Memory T Cells Exhibit Compromised IFN-γ Production after In Vivo TCR Stimulation.

机构信息

Department of Pathology, University of Iowa, Iowa City, IA.

Interdisciplinary Graduate Program in Immunology, University of Iowa, Iowa City, IA.

出版信息

J Immunol. 2023 Apr 15;210(8):1025-1030. doi: 10.4049/jimmunol.2200931.

DOI:10.4049/jimmunol.2200931

PMID:36912465

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10229141/

Abstract

Although tissue resident memory T cells (TRM) in the lung confer robust protection against secondary influenza infection, their in vivo production of IFN-γ is unknown. In this study, using a mouse model, we evaluated production of IFN-γ by influenza-induced TRM (defined as CD103+) that localize to the airways or lung parenchyma. Airway TRM consist of both CD11ahi and CD11alo populations, with low CD11a expression signifying prolonged airway residence. In vitro, high-dose peptide stimulation evoked IFN-γ from most CD11ahi airway and parenchymal TRM, whereas most CD11alo airway TRM did not produce IFN-γ. In vivo production of IFN-γ was clearly detectable in CD11ahi airway and parenchymal TRM but essentially absent in CD11alo airway TRM, irrespective of airway-instilled peptide concentration or influenza reinfection. The majority of IFN-γ-producing airway TRM in vivo were CD11ahi, suggesting recent airway entry. These results question the contribution of long-term CD11alo airway TRM to influenza immunity and reinforce the importance of defining TRM tissue compartment-specific contributions to protective immunity.

摘要

尽管肺组织驻留记忆 T 细胞 (TRM) 可提供针对二次流感感染的强大保护，但它们在体内产生 IFN-γ 的情况尚不清楚。在这项研究中，我们使用小鼠模型评估了定位于气道或肺实质的流感诱导的 TRM（定义为 CD103+）产生 IFN-γ的情况。气道 TRM 由 CD11ahi 和 CD11alo 两个群体组成，CD11a 表达水平较低表示气道驻留时间延长。体外，高剂量肽刺激可从大多数 CD11ahi 气道和实质 TRM 中诱发出 IFN-γ，而大多数 CD11alo 气道 TRM 则不产生 IFN-γ。在体内，CD11ahi 气道和实质 TRM 中可明显检测到 IFN-γ 的产生，但 CD11alo 气道 TRM 中则基本上不存在，无论气道内注入的肽浓度或流感再感染如何。体内 IFN-γ 产生的气道 TRM 主要为 CD11ahi，表明其最近进入气道。这些结果对长期 CD11alo 气道 TRM 对流感免疫的贡献提出了质疑，并强调了确定 TRM 组织隔室特异性对保护性免疫的重要性。

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