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损伤诱导的肺簇状细胞具有异质性,独立于关键的 2 型细胞因子产生,并且对于发育不良的修复是可有可无的。

Injury-induced pulmonary tuft cells are heterogenous, arise independent of key Type 2 cytokines, and are dispensable for dysplastic repair.

机构信息

Department of Pediatrics, University of California, San Diego, San Diego, United States.

Department of Biomedical Sciences, School of Veterinary Medicine, University of Pennsylvania, Philadelphia, United States.

出版信息

Elife. 2022 Sep 8;11:e78074. doi: 10.7554/eLife.78074.

DOI:10.7554/eLife.78074
PMID:36073526
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9553214/
Abstract

While the lung bears significant regenerative capacity, severe viral pneumonia can chronically impair lung function by triggering dysplastic remodeling. The connection between these enduring changes and chronic disease remains poorly understood. We recently described the emergence of tuft cells within Krt5 dysplastic regions after influenza injury. Using bulk and single-cell transcriptomics, we characterized and delineated multiple distinct tuft cell populations that arise following influenza clearance. Distinct from intestinal tuft cells which rely on Type 2 immune signals for their expansion, neither IL-25 nor IL-4ra signaling are required to drive tuft cell development in dysplastic/injured lungs. In addition, tuft cell expansion occurred independently of type I or type III interferon signaling. Furthermore, tuft cells were also observed upon bleomycin injury, suggesting that their development may be a general response to severe lung injury. While intestinal tuft cells promote growth and differentiation of surrounding epithelial cells, in the lungs of tuft cell deficient mice, Krt5 dysplasia still occurs, goblet cell production is unchanged, and there remains no appreciable contribution of Krt5 cells into more regionally appropriate alveolar Type 2 cells. Together, these findings highlight unexpected differences in signals necessary for murine lung tuft cell amplification and establish a framework for future elucidation of tuft cell functions in pulmonary health and disease.

摘要

虽然肺具有显著的再生能力,但严重的病毒性肺炎可通过引发畸形重塑而长期损害肺功能。这些持久变化与慢性疾病之间的联系仍知之甚少。我们最近描述了流感损伤后 Krt5 畸形区域内出现的簇状细胞。通过对大量和单细胞转录组学的研究,我们对流感清除后出现的多个不同簇状细胞群体进行了特征描述和划分。与依赖于 2 型免疫信号来扩张的肠簇状细胞不同,在畸形/受损的肺部中,IL-25 和 IL-4ra 信号都不需要来驱动簇状细胞的发育。此外,簇状细胞的扩张独立于 I 型或 III 型干扰素信号。此外,在博来霉素损伤时也观察到了簇状细胞,这表明它们的发育可能是对严重肺损伤的一般反应。虽然肠簇状细胞促进周围上皮细胞的生长和分化,但在簇状细胞缺失小鼠的肺部中,Krt5 畸形仍然存在,杯状细胞的产生没有改变,并且 Krt5 细胞几乎没有明显地分化为更局部合适的肺泡 2 型细胞。这些发现共同强调了鼠肺簇状细胞扩增所需信号的意外差异,并为未来阐明簇状细胞在肺部健康和疾病中的功能奠定了框架。

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