Interactions between spermine and Mg2+ on mitochondrial Ca2+ transport.

The effects of the polyamine spermine on the regulation of Ca2+ transport by subcellular organelles from rat liver, heart, and brain were investigated using ion-sensitive minielectrodes and a 45Ca2+ tracer method. Spermine stimulated Ca2+ uptake by mitochondria but not by microsomes. In the presence of spermine, isolated mitochondria could maintain a free extramitochondrial Ca2+ concentration of 0.3-0.2 microM. Stimulation of the initial rates of Ca2+ uptake and 45Ca2+ cycling of mitochondria by spermine shows that this was accomplished through a decrease of the apparent Km for Ca2+ uptake by the Ca2+ uniporter. The half maximally effective concentration of spermine (50 microM) was in the range of physiological concentrations of this polyamine in the cell. Spermidine was five times less effective. Putrescine was ineffective. The stimulation of mitochondrial Ca2+ uptake by spermine was inhibited by Mg2+ in a concentration-dependent manner. However, the diminished contribution of the mitochondria to the regulation of the free extraorganellar Ca2+ concentration could mostly be compensated for by microsomal Ca2+ uptake. Spermine also reversed ruthenium red-induced Ca2+ efflux from mitochondria. It is concluded that spermine is an activator of the mitochondrial Ca2+ uniporter and Mg2+ an antagonist. By this mechanism, the polyamines can confer to the mitochondria an important role in the regulation of the free cytoplasmic Ca2+ concentration in the cell and of the free Ca2+ concentration in the mitochondrial matrix.