Nontargeted Identification of Organic Components in Fine Particulate Matter Related to Lung Tumor Metastasis Based on an Adverse Outcome Pathway Strategy
Shaoyang Ji, Yuqiong Guo, Jinjian Ding, Wen-Jun Hong, Zhipeng Yan, Zhihong Cai, Huifeng Yue, Xinghua Qiu, Nan Sang
Abstract
Emerging studies implicate fine particulate matter (PM 2.5 ) and its organic components (OCs) as urgent hazard factors for lung cancer progression in nonsmokers. Establishing the adverse outcome pathway (AOP)-directed nontargeted identification method, this study aimed to explore whether PM 2.5 exposure in coal-burning areas promoted lung tumor metastasis and how we identify its effective OCs to support traceability and control of regional PM 2.5 pollution. First, we used a nude mouse model of lung cancer for PM 2.5 exposure and found that the exposure significantly promoted the hematogenous metastases of A549-Luc cells in lung tissues and the adverse outcomes (AOs), with key events (KEs) including the changed expression of epithelial–mesenchymal transition (EMT) markers, such as suppression of E-cad and increased expression of Fib. Subsequently, using AOs and KEs as adverse outcome directors, we identified a total of 35 candidate chemicals based on the in vitro model and nontargeted analysis. Among them, tributyl phosphate (C 12 H 27 O 4 P), 2-bromotetradecane (C 14 H 29 Br), and methyl decanoate (C 11 H 22 O 2 ) made greater contributions to the AOs. Finally, we clarified the interactions between these OCs and EMT-activating transcription factors (EMT-ATFs) as the molecular initiation event (MIE) to support the feasibility of the above identification strategy. The present study updates a new framework for identifying tumor metastasis-promoting OCs in PM 2.5 and provides solid data for screening out chemicals that need priority control in polluted areas posing higher lung cancer risk.