期刊
SCIENCE OF THE TOTAL ENVIRONMENT
卷 905, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.scitotenv.2023.167039
关键词
Cadmium; Ferroptosis; Glutathione redox imbalance; STEAP3; Kidney damage
This study provides evidence that chronic exposure to cadmium triggers ferroptosis and renal dysfunction, depending on STEAP3-mediated glutathione redox imbalance. The study also highlights the metabolic reprogramming induced by cadmium exposure in the kidneys and provides novel clues linking chronic cadmium exposure to nephrotoxicity.
Cadmium (Cd), a predominant environmental pollutant, is a canonical toxicant that acts on the kidneys. However, the nephrotoxic effect and underlying mechanism activated by chronic exposure to Cd remain unclear. In the present study, male mice (C57BL/6J, 8 weeks) were treated with 0.6 mg/L cadmium chloride (CdCl2) administered orally for 6 months, and tubular epithelial cells (TCMK-1 cells) were treated with low-dose (1, 2, and 3 mu M) CdCl2 for 72 h (h). Our study results revealed that environmental Cd exposure triggered ferroptosis and renal dysfunction. Spatially resolved metabolomics enabled delineation of metabolic profiles and visualization of the disruption to glutathione homeostasis related to ferroptosis in mouse kidneys. Multiomics analysis revealed that chronic Cd exposure induced glutathione redox imbalance that depended on STEAP3-driven lysosomal iron overload. In particular, glutathione metabolic reprogramming linked to ferroptosis emerged as a metabolic hallmark in the blood of Cd-exposed workers. In conclusion, this study provides the first evidence indicating that chronic Cd exposure triggers ferroptosis and renal dysfunction that depend on STEAP3-mediated glutathione redox imbalance, greatly increasing our understanding of the metabolic reprogramming induced by Cd exposure in the kidneys and providing novel clues linking chronic Cd exposure to nephrotoxicity.
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