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核内 IL-33 作为基底细胞内的生长和存活因子。

Nuclear IL-33 as a growth and survival agent within basal cells.

出版信息

J Clin Invest. 2021 Oct 1;131(19). doi: 10.1172/JCI153203.

DOI:10.1172/JCI153203
PMID:34596050
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8483740/
Abstract

IL-33 is a well-studied cytokine that resides normally within nuclei but can be released by cell damage or stress to then signal via a single receptor widely expressed on immune cells to promote host resistance and type 2 allergic immunity. In this issue of the JCI, Wu et al. used a well-established model of mouse Sendai viral infection to show that IL-33 was induced in distal lung airway epithelium, specifically in cell-cycling basal cells. IL-33 induced cell-cycling basal cells to expand and migrate into the alveolar compartment, presumably to restore barrier function. However, restoring barrier function with airway-derived cells may also result in persistent alveolar metaplasia. Surprisingly, nuclear IL-33 in this system acted cell autonomously, independently of release and conventional ST2 (IL1RL1) receptor signaling. The findings uncover a signaling role for nuclear IL-33 in viral activation of mouse basal cells and add to the well-known "alarmin" function of IL-33.

摘要

IL-33 是一种研究得很好的细胞因子,正常情况下存在于细胞核内,但细胞损伤或应激时可被释放,然后通过广泛表达于免疫细胞的单一受体信号转导,促进宿主抵抗和 2 型过敏免疫。在本期 JCI 中,Wu 等人利用已建立的小鼠仙台病毒感染模型表明,IL-33 在远端肺气道上皮细胞中诱导表达,特别是在细胞周期的基底细胞中。IL-33 诱导细胞周期的基底细胞扩张并迁移到肺泡隔,推测是为了恢复屏障功能。然而,气道来源的细胞恢复屏障功能也可能导致持续的肺泡化生。令人惊讶的是,该系统中的核内 IL-33 具有细胞自主作用,不依赖于释放和传统的 ST2(IL1RL1)受体信号转导。这些发现揭示了核内 IL-33 在病毒激活小鼠基底细胞中的信号作用,并增加了 IL-33 众所周知的“警报素”功能。

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