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. 2023 Aug;38(8):1905-1913.
doi: 10.1002/tox.23817. Epub 2023 May 1.

PM2.5 promotes pulmonary fibrosis by mitochondrial dysfunction

En-Ming Chang  1 Chia-Chia Chao  2 Mei-Ting Wang  3 Chia-Lang Hsu  4 Po-Chun Chen  5   6   7
Affiliations

PM2.5 promotes pulmonary fibrosis by mitochondrial dysfunction

En-Ming Chang et al. Environ Toxicol. 2023 Aug.

Abstract

Pulmonary fibrosis is known as an incurable lung disorder with irreversible progression of chronic injury, myofibroblast proliferation, extracellular matrix (ECM) accumulation, and tissue scarring. Atmospheric particulate matter 2.5 (PM2.5 ) is implicated as a risk factor of several diseases, especially lung diseases such as pulmonary fibrosis. The molecular mechanism which participates PM2.5 -induced pulmonary fibrosis in type II alveolar cells (AEII) has yet to be determined. Our results proved that short- and long-term exposure to PM2.5 significantly stimulated epithelial-mesenchymal transition (EMT) activity in AEII cells, according to, changes in gene signature analyzed by RNA-seq and cell morphology. Furthermore, Gene Ontology (GO) enrichment analysis also suggested that mitochondrial dysfunction was related to progression of pulmonary fibrosis in AEII after PM2.5 exposure. We observed a marked decline in mitochondria membrane potential (MMP), as well as fragmented mitochondria, in AEII cells exposed to PM2.5 , which suggests that energy metabolism is suppressed after PM2.5 exposure. We also confirmed that PM2.5 exposure could influence the expression levels of Mfn1, Mfn2, and Drp1 in AEII. Pretreatment of mitochondrial fusion promoter M1 was able to reverse mitochondrial dysfunction as well as EMT in AEII. These data suggested the key role of mitochondrial fragmentation in AEII, which was induced by PM2.5 exposure, and participated pathogenesis of pulmonary fibrosis. Finally, we investigated the response of lung tissue exposed to PM2.5 in vivo. The data indicated that the lung tissue exposed to PM2.5 obviously induced collagen accumulation. Moreover, IHC results revealed that PM2.5 enhanced Drp1 expression but suppressed Mfn1 and Mfn2 expression in lung tissue. The current study provides novel insight of pulmonary fibrosis caused by PM2.5 exposure.

Keywords: PM2.5; mitochondrial dysfunction; pulmonary fibrosis.

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References

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