Effects of physiological manipulation on the kinetics of mitochondrial phosphate transport in Saccharomyces cerevisiae

The kinetics of [³²P]phosphate uptake has been studied in different types of Saccharomyces cerevisiae mitochondria. Mitochondria were isolated from yeast grown aerobically on 2% lactate (Lac-mitochondria), 2% galactose (Gal-mitochondria), 5.4% glucose (Glu-mitochondria) or from yeast grown anaerobically on 2% galactose (Promitochondria). The effect of chloramphenicol was also studied by adding it to the growth medium of yeast grown aerobically on 2% galactose (chloramphenicol-mitochondria).[³²P]Phosphate uptake followed an oscillatory pattern in Lac, Gal-mitochondria and Promitochondria.Saturation kinetics were detected in fully differenciated mitochondria and in Promitochondria, but not in chloramphenicol-mitochondria.Glu-mitochondria did not translocate phosphate as shown both by lack of [³²P]phosphate uptake and lack of swelling in isoosmotic potassium solution.Repressed yeast cells were incubated in a resting cell medium and mitochondria were isolated at different times of incubation. The rate of respiration and the oligomycin-sensitive ATPase increased during the course of the incubation. After 2h, a mitochondrial mersalyl-sensitive swelling in an isoosmotic potassium phosphate solution was detected.As expected, no increase of the rate of respiration was observed when chloramphenicol was added in the derepression medium. But the oligomycin-sensitive ATPase decreased. Chloramphenicol did not affect the phosphate transport activity as measured by the swelling of mitochondria, but the [³²P]phosphate uptake did not follow saturation kinetics. A complete derepression of the inorganic phosphate-carrier activity was achieved by a 4 h incubation of the repressed cells in the presence of chloramphenicol, followed by a 6 h incubation in presence of cycloheximide.These data strongly suggest that the mitochondrial protein-synthesis system is required for the normal function of the inorganic phosphate-carrier.