Respiratory inhibition by copper in Tetrahymena pyriformis GL

An excess of copper incorporated into Tetrahymena cells was mainly distributed in mitochondria, and inhibited oxygen uptake of Tetrahymena cells. The inhibition of oxygen uptake was clearly to copper uptake in mitochondria. Succinate was most favorable as a substrate stimulating oxygen uptake in mitochondria, and oxygen uptake was most strongly inhibited by copper (0.1 mM) in the presence of succinate among various substrates. The copper incorporated into mitochondria was in the fraction with the inner membranes. Succinate dehydrogenase (SDH) was inhibited at the lowest copper concentration (0.1 mM) among respiratory related enzymes. The redox potential of respiratory components was raised by copper. These results suggest that respiratory inhibition of Tetrahymena cells by copper may be mainly cause by inhibition of SDH as a FAD-protein and oxidation of electron carriers. At higher copper concentrations, MDH, cytochrome c reductase, and ATP synthesis were also inhibited. Growth inhibition may be due to these effects of copper in mitochondria. Mercury affected both oxygen uptake and SDH more strongly than copper. Zinc (0.1 mM) also affected oxygen uptake in mitochondria and a little in whole cells, however, it did not inhibit SDH. Cobalt, manganese, and nickel affected both oxygen uptake and SDH only a little at the same concentration (0.1 mM) as copper.