The signaling pathway that transduces the stimulatory effect of low K⁺ on the biosynthesis of Na,K-ATPase remains largely unknown. The present study was undertaken to examine whether reactive oxygen species (ROS) mediated the effect of low K⁺ in MDCK cells. Low K⁺ increased ROS activity in a time- and dose-dependent manner, and this effect was abrogated by catalase and N-acetylcysteine (NAC). To determine the role of ROS in low K⁺-induced gene expression, the cells were first stably transfected with expression constructs in which the reporter gene chloramphenicol acetyl transferase (CAT) was under the control of the avian Na,K-ATPase -subunit 1.9 kb and 900 bp 5 prime end-flanking regions that have a negative regulatory element. Low K⁺ increased the CAT expression in both constructs. Catalase or NAC inhibited the effect of low K⁺. To determine whether the increased CAT activity was mediated through releasing the repressive effect or a direct stimulation of the promoter, the cells were transfected with a CAT expression construct directed by a 96 bp promoter fragment that has no negative regulatory element. Low K⁺ also augmented the CAT activity expressed by this construct. More importantly, both catalase and NAC abolished the effect of low K⁺. Moreover, catalase and NAC also inhibited low K⁺-induced increases in the Na,K-ATPase 1- and 1-subunit protein abundance and ouabain binding sites. The antioxidants had no significant effect on the basal levels of CAT activity, protein abundance or ouabain binding sites. In conclusion, low K⁺ enhances the Na,K-ATPase gene expression by a direct stimulation of the promoter activity, and ROS mediate this stimulation and also low K⁺-induced increases in the Na,K-ATPase protein contents and cell surface molecules.