Involvement of Npas2 and Per2 modifications in zinc-induced acute diurnal toxicity in mice

抄録

Zinc (Zn) is one of the most essential trace elements in the body and an integral part of many enzyme systems. Zn deficiency is characterized by growth retardation, loss of appetite, and impaired immune function. In contrast, Zn overdoses can be associated with liver, kidney, and stomach damage. We focused on the “chronotoxicity,” or the relationship between injection time and severity of chemical toxicity. The aim of this study was to investigate the chronotoxicity of Zn and the in vivo factors involved. Seven-week-old male ICR mice were administered Zn at six different time points per day (zeitgeber time [ZT]: ZT2, ZT6, ZT10, ZT14, ZT18, and ZT22). Mortality was monitored for 7-days after administration. The mice were tolerant to Zn administered at ZT2 and ZT6, and were highly sensitive at ZT14 and ZT18. Furthermore, when mice were administered a non-lethal dose of Zn, the levels of hepatic injury indicators (AST and ALT) were much higher at ZT14 than at ZT2. To explore the mechanism of Zn-induced diurnal hepatotoxicity, we performed an in vitro experiment, focusing on the clock genes. We found that Zn downregulated the expression levels of several clock genes, neuronal PAS domain protein 2 (Npas2) and Peroid2 (Per2), in Hepa1-6 cells. Interestingly, overexpression of both Npas2 and Per2 restored Zn-induced toxicity in Hepa1-6 cells. Since NPAS2 and PER2 are known to modulate the hepatic injury induced by carbon tetrachrolide or acetaminophen, our results suggest that Zn-induced diurnal toxicity may be associated with modulation of Npas2 and Per2 gene expression.