METTL3-driven m6A modification orchestrates mitophagy-dependent ferroptosis in PM2.5-induced lung injury
Qin Ran, Jie Gao, Guoping Li, Junyi Wang, Xiaolan Li, Anying Xiong, Yi Zhang, Ying Xiong, Xiang He

TL;DR
This study reveals how PM2.5 pollution causes lung injury through a chain of events involving METTL3, mitophagy, and ferroptosis.
Contribution
It identifies a novel regulatory axis linking m6A modification, mitophagy, and ferroptosis in PM2.5-induced lung injury.
Findings
METTL3 overexpression worsens PM2.5-induced mitophagy and ferroptosis in bronchial cells.
Inhibiting mitophagy with Mdivi-1 reduces lung damage and ferroptosis in mice.
METTL3 promotes PINK1 mRNA stability via m6A modification, triggering ferroptotic cell death.
Abstract
Air pollution, particularly from fine particulate matter (PM2.5), poses a significant threat to respiratory health, yet the molecular mechanisms underlying PM2.5-induced lung injury remain incompletely understood. This study investigated the role of N 6-methyladenosine (m6A) methyltransferase METTL3 in regulating mitophagy-dependent ferroptosis in bronchial epithelial cells exposed to PM2.5. Using in vitro and in vivo models, we demonstrated that PM2.5 exposure induced histological alterations in mouse lung tissues, including inflammatory cell infiltration, goblet cell hyperplasia, and mucus hypersecretion, concurrent with enhanced ferroptosis and mitophagy in bronchial epithelial cells. Gain-of-function and loss-of-function experiments showed that METTL3 overexpression exacerbated mitophagy and ferroptosis, while METTL3 silencing attenuated these processes, rescuing cell viability and…
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Taxonomy
TopicsRNA modifications and cancer · Cancer-related gene regulation · Cancer-related molecular mechanisms research
