Ba2+ uptake and the inhibition by Ba2+ of K+ flux into rat liver mitochondria

Summary Rapid uptake of Ba²⁺ by respiring rat liver mitochondria is accompanied by a transient stimulation of respiration. Following accumulation of Ba²⁺, e.g. at a concentration of 120 nmol per mg protein, the mitochondria exhibit reduced rates of state 3 and uncoupler-stimulated respiration. ADP-stimulated respiration is inhibited at a lower concentration of Ba²⁺ than is required to affect uncoupler-stimulated respiration, suggesting a distinct effect of Ba²⁺ on mechanisms involved in synthesis of ATP. Ba²⁺, which has an ionic radius similar to that of K⁺, inhibits unidirectional K⁺ flux into respiring rat liver mitochondria. This effect on K⁺ influx is observable at concentrations of Ba²⁺, e.g. 23 to 37 nmol per mg protein, which cause no significant change in state 4 or uncoupler-stimulated respiration. The accumulated Ba²⁺ decreases the measuredV_max of K⁺ influx, while having little effect on the apparentK_m for K⁺. The inhibition of K⁺ influx by Ba²⁺ is seen in the presence and absence of mersalyl, an activator of K⁺ influx. In contrast, under the conditions studied, Ba²⁺ has no apparent effet on the rate of unidirectional K⁺ efflux. These data are consistent with the idea that K⁺ may enter and leave mitochondria via spearate mechanisms.