The neurotoxicity caused by cadmium (Cd) is well known in humans and experimental animals. However, there is no effective treatment for its toxicity. In this study, we established Cd toxicity models in cultured cells or mice to investigate the detoxification effect of edaravone (Eda). We found that Eda protected GL261 cells from Cd toxicity and prevented the loss of cell viability. In Cd-exposed mice, liver, kidney and testicular damage, as well as cognitive dysfunction were observed. Oxidative stress and inflammatory responses, such as decreased SOD and CAT, increased LDH and MDA, and abnormal changes in the inflammatory factors TNF-α, IL-1β, IL-6 and IL-10 were detected in serum and brain tissue. Eda protected mice from Cd-induced toxicity and abrogated oxidative stress and inflammatory responses. Also, Eda prevented inflammatory activation of microglia and astrocytes and was accompanied by restoration of the neuronal marker protein MAP2, indicating restoration of neuronal function. In addition, the BDNF-TrkB/Akt and Notch/HES-1 signaling axes were involved in the response of Eda to the elimination of Cd toxicity. In conclusion, Eda does contribute to the clearance of Cd-induced toxicity.
Keywords: GFAP; HES-1; IBA1; IL-1β; Notch1; TNF-α.
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