Arsenic exposure and lung fibrotic changes-evidence from a longitudinal cohort study and experimental models.

Introduction: Arsenic (As) exposure is associated with lung toxicity and we aim to investigate the effects of arsenic exposure on lung fibrotic changes.
Methods: Participants (n= 976) enrolled via a general health survey underwent chest low-dose computed tomography (LDCT), spirometry forced expiratory volume in 1 s (FEV1), forced vital capacity (FVC), and urinary arsenic examination during 2016 and 2018. Lung fibrotic changes from LDCT were defined. As ^LtoL , low arsenic levels in both 2016 and 2018; As ^LtoH , low arsenic in 2016 but high levels in 2018; As ^HtoL , high arsenic in 2016 but low levels in 2018; As ^HtoH , high arsenic levels in both 2016 and 2018. Mice exposed to 0. 0.2mg/L, 2 mg/L, 50 mg/L of sodium arsenite (NaAsO ₂ ) through drinking water for 12 weeks and 24 weeks were applied for histological analysis. Cultured lung epithelial cells were exposed to NaAsO ₂ and the mesenchymal changes were examined.
Results: As ^HtoH increased the risk (OR= 1.65, 95% CI 1.10, 2.49) of Lung fibrotic _{positive to positive} (reference: Lung fibrotic _{negative to negative} ) compared with As ^LtoL . Moreover, the predicted mean of FVC and FEV1 in As ^HtoH (-0.09 units, 95% CI: -0.27, -0.09; -0.09 units, 95% CI: -0.17, -0.01) and As ^LtoH (-0.13 units, 95% CI: -0.30, -0.10; -0.13 units, 95% CI: -0.22, -0.04) was significantly lower than AS ^LtoL . Significant lung fibrotic changes including the increase of the alveolar septum thickness and collagen fiber deposition were observed upon 2 mg/L NaAsO ₂ treatment for 12 weeks, and the damage was dose- and time-dependent. In vitro , sodium arsenite treatment promotes the epithelial-mesenchymal transition (EMT)-like changes of the normal human bronchial epithelial cells, including upregulation of several fibrotic and mesenchymal markers (fibronectin, MMP-2, and Snail) and cell migration. Inhibition of reactive oxygen species (ROS) and MMP-2 impaired the arsenic-induced EMT changes. Administration of a flavonoid, apigenin, inhibited EMT in vitro and pulmonary damages in vivo with the reduction of mesenchymal markers.
Discussion: we demonstrated that continued exposure to arsenic causes lung fibrosis in humans and mice. Targeting lung epithelial cells EMT is effective on the development of therapeutic strategy. Apigenin is effective in the inhibition of arsenic-induced pulmonary fibrosis and EMT.
Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
(Copyright © 2023 Wang, Chiou, Chen, Wu, Lin, Chen, Liao, Lin, Hung and Kuo.)