A rapid filtration technique has been used to measure at room temperature the kinetics of ADP and ATP transport in rat heart mitochondria in the millisecond time range. Transport was stopped by cessation of the nucleotide supply, without the use of a transport inhibitor, thus avoiding any quenching delay. The mitochondria were preincubated for 30 s either in isotonic KCl containing succinate, MgCl2, and Pi (medium P) or in isotonic KCl supplemented only with EDTA and Tris (medium K); they were referred to as energized and resting mitochondria, respectively. The kinetics of [14C]ADP transport in energized mitochondria were apparently monophasic. The plateau value for [14C]ADP uptake reached 4-5 nmol of nucleotide.(mg of protein)-1. Vmax values for [14C]ADP transport of 400-450 nmol exchanged.min-1.(mg of protein)-1 with Km values of the order of 13-15 microM were calculated, consistent with rates of phosphorylation in the presence of succinate of 320-400 nmol of ATP formed.min-1.(mg of protein)-1. The rate of transport of [14C]ATP in energized mitochondria was 5-10 times lower than that of [14C]ADP. Upon uncoupling, the rate of [14C]ATP uptake was enhanced, and that of [14C]ADP uptake was decreased. However, the two rates did not equalize, indicating that transport was not exclusively electrogenic. Transport of [14C]ADP and [14C]ATP by resting mitochondria followed biphasic kinetics.(ABSTRACT TRUNCATED AT 250 WORDS)
Read full abstract