GREM1/PPP2R3A expression in heterogeneous fibroblasts initiates pulmonary fibrosis
Shi Xiaoni, Wang Jing, Zhang Xinxin, Yang Shaoqi, Luo Wei, Wang Sha, Huang Jie, Chen Mengling, Cheng Yusi, Chao Jie
Journal:Cell and Bioscience
IF:9.58
DOI:10.1186/s13578-022-00860-0
PMID:35933397
Published:2022-08-06
research field:心血管研究炎症信号传导肾脏病学植物药理学分子药理学
Abstract
Background Fibroblasts have important roles in the synthesis and remodeling of extracellular matrix (ECM) proteins during pulmonary fibrosis. However, the spatiotemporal distribution of heterogeneous fibroblasts during disease progression remains unknown. Results In the current study, silica was used to generate a mouse model of pathological changes in the lung, and single-cell sequencing, spatial transcriptome sequencing and an analysis of markers of cell subtypes were performed to identify fibroblast subtypes. A group of heterogeneous fibroblasts that play an important role at the early pathological stage were identified, characterized based on the expression of inflammatory and proliferation genes (termed inflammatory-proliferative fibroblasts) and found to be concentrated in the lesion area. The expression of GREM1/protein phosphatase 2 regulatory subunit B''alpha (PPP2R3A) in inflammatory-proliferative fibroblasts was found to initiate early pulmonary pathological changes by increasing the viability, proliferation and migration of cells. Conclusions Inflammatory-proliferative fibroblasts play a key role in the early pathological changes that occur in silicosis, and during this process, GREM1 is the driving factor that targets PPP2R3A and initiates the inflammatory response, which is followed by irreversible fibrosis induced by SiO 2 . The GREM1/PPP2R3A pathway may be a potential target in the early treatment of silicosis.
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