呼吸道流感病毒感染导致小肠中的微绒毛细胞和固有淋巴细胞发生动态变化。
Respiratory Influenza Virus Infection Causes Dynamic Tuft Cell and Innate Lymphoid Cell Changes in the Small Intestine.
机构信息
Biochemistry, Molecular Biology, and Biophysics Graduate Program, University of Minnesotagrid.17635.36, Minneapolis, Minnesota, USA.
Department of Microbiology and Immunology, University of Minnesotagrid.17635.36, Minneapolis, Minnesota, USA.
出版信息
J Virol. 2022 May 11;96(9):e0035222. doi: 10.1128/jvi.00352-22. Epub 2022 Apr 21.
Influenza A viruses (IAV) can cause severe disease and death in humans. IAV infection and the accompanying immune response can result in systemic inflammation, leading to intestinal damage and disruption of the intestinal microbiome. Here, we demonstrate that a specific subset of epithelial cells, tuft cells, increase across the small intestine during active respiratory IAV infection. Upon viral clearance, tuft cell numbers return to baseline levels. Intestinal tuft cell increases were not protective against disease, as animals with either increased tuft cells or a lack of tuft cells did not have any change in disease morbidity after infection. Respiratory IAV infection also caused transient increases in type 1 and 2 innate lymphoid cells (ILC1 and ILC2, respectively) in the small intestine. ILC2 increases were significantly blunted in the absence of tuft cells, whereas ILC1s were unaffected. Unlike the intestines, ILCs in the lungs were not altered in the absence of tuft cells. This work establishes that respiratory IAV infection causes dynamic changes to tuft cells and ILCs in the small intestines and that tuft cells are necessary for the infection-induced increase in small intestine ILC2s. These intestinal changes in tuft cell and ILC populations may represent unexplored mechanisms preventing systemic infection and/or contributing to severe disease in humans with preexisting conditions. Influenza A virus (IAV) is a respiratory infection in humans that can lead to a wide range of symptoms and disease severity. Respiratory infection can cause systemic inflammation and damage in the intestines. Few studies have explored how inflammation alters the intestinal environment. We found that active infection caused an increase in the epithelial population called tuft cells as well as type 1 and 2 innate lymphoid cells (ILCs) in the small intestine. In the absence of tuft cells, this increase in type 2 ILCs was seriously blunted, whereas type 1 ILCs still increased. These findings indicate that tuft cells are necessary for infection-induced changes in small intestine type 2 ILCs and implicate tuft cells as regulators of the intestinal environment in response to systemic inflammation.
甲型流感病毒(IAV)可导致人类发生严重疾病和死亡。IAV 感染及伴随的免疫反应可导致全身炎症,导致肠道损伤和肠道微生物组破坏。在这里,我们证明在呼吸道 IAV 感染活跃期间,小肠内的特定上皮细胞簇——微绒毛细胞会增加。病毒清除后,微绒毛细胞数量恢复到基线水平。微绒毛细胞的增加并不能起到保护作用,因为感染后,微绒毛细胞增加或缺乏微绒毛细胞的动物疾病发病率没有任何变化。呼吸道 IAV 感染也会导致小肠中 1 型和 2 型固有淋巴细胞(分别为 ILC1 和 ILC2)的短暂增加。在缺乏微绒毛细胞的情况下,ILC2 的增加显著减弱,而 ILC1 不受影响。与肠道不同,缺乏微绒毛细胞时,肺部的 ILC 没有改变。这项工作确立了呼吸道 IAV 感染可导致小肠中微绒毛细胞和 ILC 发生动态变化,并且微绒毛细胞是感染诱导小肠 ILC2 增加所必需的。这些微绒毛细胞和 ILC 群体在肠道中的变化可能代表了阻止全身感染和/或导致人类原有疾病发生严重疾病的未被探索的机制。
甲型流感病毒(IAV)是一种人类呼吸道感染病毒,可导致多种症状和疾病严重程度。呼吸道感染可导致全身炎症和肠道损伤。很少有研究探讨炎症如何改变肠道环境。我们发现,活跃感染导致小肠中一种称为微绒毛细胞的上皮细胞群以及 1 型和 2 型固有淋巴细胞(ILC)增加。在缺乏微绒毛细胞的情况下,这种 2 型 ILC 的增加严重减弱,而 1 型 ILC 仍在增加。这些发现表明,微绒毛细胞是感染诱导的小肠 2 型 ILC 变化所必需的,并暗示微绒毛细胞作为对全身炎症的肠道环境的调节因子。
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