Influenza B virus infection alters the regenerative potential of murine alveolar type 2 pneumocytes.

IF 5.1 1区生物学 Q1 MICROBIOLOGY

mBio Pub Date : 2025-02-05 Epub Date: 2024-12-31 DOI:10.1128/mbio.02743-24

Satoko Nakano, Cait E Hamele, Aleksandra Tata, Purushothama Rao Tata, Nicholas S Heaton

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引用次数: 0

Abstract

Respiratory epithelial cells can survive direct infection by influenza viruses, and the long-term consequences of that infection have been characterized in a subset of proximal airway cell types. The impact on the cells that survive viral infection in the distal lung epithelia, however, is much less well-characterized. Utilizing a Cre-expressing influenza B virus (IBV) and a lox-stop-lox tdTomato reporter mouse model, we identified that alveolar type 2 (AT2) pneumocytes, a progenitor cell type in the distal lung, can survive viral infection. We show that survival of infection is associated with transcriptional dysregulation compared to bystander AT2 pneumocytes from the same lung. Furthermore, ex vivo experiments revealed a significant reduction in proliferation rates in survivor AT2 pneumocytes compared to matched, non-directly infected bystander cells. Our findings not only enhance our understanding of the AT2 pneumocyte response to IBV infection but could also have broader implications for the mechanisms of respiratory epithelial repair post-viral infection.

Importance: Alveolar type 2 (AT2) pneumocytes are a cell type critical for repair of the distal lung after an injury, such as a viral infection. After epithelial damage, AT2 pneumocytes proliferate for both self-renewal and differentiation into type I pneumocytes to repopulate the epithelium. Theoretically, some of the long-term lung sequelae associated with viral infections could be the result of inappropriate AT2 behavior. Here, the authors report that during an influenza B virus infection, some of the actively infected AT2 pneumocytes can ultimately eliminate all traces of the viral RNA and persist in the host long term. As a consequence of having been infected, however, the cells display an altered transcriptional profile and decreased proliferative capacity. These data together suggest a mechanism for how an acute viral infection can have long-term impacts on the pulmonary system.

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乙型流感病毒感染改变小鼠肺泡2型肺细胞的再生潜能。

呼吸道上皮细胞可以在流感病毒的直接感染下存活，并且这种感染的长期后果已经在近端气道细胞类型的一个子集中表现出来。然而，对远端肺上皮中存活的病毒感染细胞的影响却不太清楚。利用表达cre的乙型流感病毒（IBV）和lox- stoplox tdTomato报告小鼠模型，我们发现肺泡2型（AT2）肺细胞，远端肺的一种祖细胞类型，可以在病毒感染中存活。我们表明，与来自同一肺的旁观者AT2肺细胞相比，感染的存活与转录失调有关。此外，离体实验显示，与匹配的、非直接感染的旁观者细胞相比，存活的AT2肺细胞的增殖率显著降低。我们的发现不仅增强了我们对AT2肺细胞对IBV感染的反应的理解，而且可能对病毒感染后呼吸道上皮修复的机制有更广泛的影响。重要性：肺泡2型（AT2）肺细胞是一种对损伤（如病毒感染）后远端肺修复至关重要的细胞类型。上皮损伤后，AT2型肺细胞增殖自我更新并分化为I型肺细胞，以重新填充上皮。从理论上讲，一些与病毒感染相关的长期肺部后遗症可能是不适当的AT2行为的结果。在这里，作者报告说，在乙型流感病毒感染期间，一些活跃感染的AT2肺细胞最终可以消除病毒RNA的所有痕迹，并长期存在于宿主体内。然而，由于受到感染，细胞表现出转录谱的改变和增殖能力的下降。这些数据共同提示了急性病毒感染如何对肺系统产生长期影响的机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

mBio MICROBIOLOGY-

CiteScore

10.50

自引率

3.10%

发文量

762

审稿时长

1 months

期刊介绍： mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.