Zinc causes loss of membrane potential and elevates reactive oxygen species in rat brain mitochondria.

Emerging evidence suggests that Zn2+ may impair neuronal metabolism. We examined how Zn2+ affects the activity of isolated brain mitochondria fueled with glutamate + malate, succinate or glycerol 3-phosphate. Submicromolar levels of Zn2+ dissipated membrane potential and inhibited oxygen utilization in all three substrate conditions. Zn(2+)-induced depolarization was reversed by the membrane-impermeant metal chelator, EGTA, and was inhibited by uniporter blockade. Cyclosporin A did not block Zn(2+)-induced depolarization. Added Zn2+ increased accumulation of reactive oxygen species (ROS) in glutamate + malate or glycerol 3-phosphate conditions, but inhibited succinate-supported ROS accumulation. These results show that Zn2+ blocks mitochondrial function in all physiologically relevant substrate conditions.