局部肺组织缺氧决定肺泡再生过程中的上皮细胞命运抉择。

Local lung hypoxia determines epithelial fate decisions during alveolar regeneration.

作者信息

Xi Ying, Kim Thomas, Brumwell Alexis N, Driver Ian H, Wei Ying, Tan Victor, Jackson Julia R, Xu Jianming, Lee Dong-Kee, Gotts Jeffrey E, Matthay Michael A, Shannon John M, Chapman Harold A, Vaughan Andrew E

机构信息

Department of Medicine, Cardiovascular Research Institute, UCSF, San Francisco, California 94143, USA.

Department of Anatomy, UCSF, San Francisco, California 94143, USA.

出版信息

Nat Cell Biol. 2017 Aug;19(8):904-914. doi: 10.1038/ncb3580. Epub 2017 Jul 24.

DOI:10.1038/ncb3580

PMID:28737769

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5600325/

Abstract

After influenza infection, lineage-negative epithelial progenitors (LNEPs) exhibit a binary response to reconstitute epithelial barriers: activating a Notch-dependent ΔNp63/cytokeratin 5 (Krt5) remodelling program or differentiating into alveolar type II cells (AEC2s). Here we show that local lung hypoxia, through hypoxia-inducible factor (HIF1α), drives Notch signalling and Krt5 basal-like cell expansion. Single-cell transcriptional profiling of human AEC2s from fibrotic lungs revealed a hypoxic subpopulation with activated Notch, suppressed surfactant protein C (SPC), and transdifferentiation toward a Krt5 basal-like state. Activated murine Krt5 LNEPs and diseased human AEC2s upregulate strikingly similar core pathways underlying migration and squamous metaplasia. While robust, HIF1α-driven metaplasia is ultimately inferior to AEC2 reconstitution in restoring normal lung function. HIF1α deletion or enhanced Wnt/β-catenin activity in Sox2 LNEPs blocks Notch and Krt5 activation, instead promoting rapid AEC2 differentiation and migration and improving the quality of alveolar repair.

摘要

流感感染后，谱系阴性上皮祖细胞（LNEPs）对重建上皮屏障表现出二元反应：激活Notch依赖的ΔNp63/细胞角蛋白5（Krt5）重塑程序或分化为II型肺泡细胞（AEC2s）。在这里，我们表明局部肺缺氧通过缺氧诱导因子（HIF1α）驱动Notch信号传导和Krt5基底样细胞扩增。对纤维化肺中的人AEC2s进行单细胞转录谱分析，发现了一个缺氧亚群，其Notch激活、表面活性蛋白C（SPC）受到抑制，并向Krt5基底样状态转分化。激活的小鼠Krt5 LNEPs和患病的人AEC2s上调了迁移和鳞状化生的核心途径，二者惊人地相似。虽然HIF1α驱动的化生很强，但在恢复正常肺功能方面，最终不如AEC2重建。在Sox2 LNEPs中删除HIF1α或增强Wnt/β-连环蛋白活性可阻断Notch和Krt5激活，转而促进AEC2快速分化和迁移，并改善肺泡修复质量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/650e/7096875/535ed413a0d2/41556_2017_Article_BFncb3580_Fig1_HTML.jpg

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Oxygen sensing and signal transduction in hypoxic pulmonary vasoconstriction.

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局部肺组织缺氧决定肺泡再生过程中的上皮细胞命运抉择。

Local lung hypoxia determines epithelial fate decisions during alveolar regeneration.

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