Harmful Effects of Inorganic Mercury Exposure on Kidney Cells: Mitochondrial Dynamics Disorder and Excessive Oxidative Stress

Mercury is widely used in industry and has caused global environmental pollution. Inorganic mercury accumulates in the body causes damage to many organs, and the kidney is the most susceptible to the toxic effects of mercury. However, the underlying specific molecular mechanism of renal injury induc...

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Veröffentlicht in:Biological trace element research 2022-04, Vol.200 (4), p.1591-1597
Hauptverfasser: Han, Biqi, Lv, Zhanjun, Han, Xuemin, Li, Siyu, Han, Bing, Yang, Qingyue, Wang, Xiaoqiao, Wu, Pengfei, Li, Jiayi, Deng, Ning, Zhang, Zhigang
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Sprache:eng
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Zusammenfassung:Mercury is widely used in industry and has caused global environmental pollution. Inorganic mercury accumulates in the body causes damage to many organs, and the kidney is the most susceptible to the toxic effects of mercury. However, the underlying specific molecular mechanism of renal injury induced by inorganic mercury remains unclear at the cellular level. Therefore, in order to understand its molecular mechanism, we used in vitro method. We established experimental models by treating human embryonic kidney epithelial cell line (HEK-293 T) cells with HgCl 2 (0, 1.25, 5, and 20 µmol/L). We found that HgCl 2 can lead to a decrease in cell viability and oxidative stress of HEK-293 T, which may be mediated by upregulation mitochondrial fission. In addition, HgCl 2 exposure resulted in the mitochondrial disorder of HEK-293 T cells, which was mediated by downregulating the expression of silent information regulator two ortholog 1 (Sirt1)/peroxisome proliferator–activated receptor coactivator-1α (PGC-1α) signaling pathway. In summary, our results suggest that HgCl 2 induces HEK-293 T cell toxicity through promoting Sirt1/PGC-1α axis-mediated mitochondrial dynamics disorder and oxidative stress. Sirt1/PGC-1α may be an appealing pharmaceutical target curing HgCl 2 -induced kidney injury.
ISSN:0163-4984
1559-0720
DOI:10.1007/s12011-021-02766-3