Strontium excitability of the inner mitochondrial membrane: regenerative strontium-induced strontium release.

Regenerative Sr(++)-induced Sr++ release from isolated rat liver mitochondria was studied using ion-selective electrode techniques. Mitochondria, when exposed to a pulse of Sr++, demonstrated a reversible and transient increase in inner membrane permeability to K+ and H+ ions. The increase in permeability was an all-or-none process with a threshold dependent on the amplitude of the Sr++ pulse. The threshold concentration of Sr++ was lowered from 120-150 microM to 20-30 microM when mitochondria were preloaded with 100 nmoles Sr++/mg protein. Release of matrix-stored divalent cations provided a mechanism for amplification of the extramitochondrial Sr++ concentration (regenerative Sr(++)-induced Sr++ release). The mitochondrial inner membrane became refractory, since subsequent cycles of excitation could not be immediately induced. These experiments demonstrate that the inner mitochondrial membrane is an excitable membrane, with threshold-dependent, regenerative and subsequently refractile Sr(++)-induced Sr++ release characteristics.