Ba2+ ions inhibit the release of Ca2+ ions from rat liver mitochondria.

The release of Ca2+ from respiring rat liver mitochondria following the addition of either ruthenium red or an uncoupler was measured by a Ca2+-selective electrode or by 45Ca2+ technique. Ba2+ ions are asymmetric inhibitors of both Ca2+ release processes. Ba2+ ions in a concentration of 75 microM inhibited the ruthenium red and the uncoupler induced Ca2+ release by 80% and 50%, respectively. For the inhibition, it was necessary that Ba2+ ions entered the matrix space: Ba2+ ions did not cause any inhibition of Ca2+ release if addition of either ruthenium red or the uncoupler preceded that of Ba2+. The time required for the development of the inhibition of the Ca2+ release and the time course of 140Ba2+ uptake ran in parallel. Ba2+ accumulation is mediated through the Ca2+ uniporter as 140Ba2+ uptake was competitively inhibited by extramitochondrial Ca2+ and prevented by ruthenium red. Due to the inhibition of the ruthenium red insensitive Ca2+ release, Ba2+ shifted the steady-state extramitochondrial Ca2+ concentration to a lower value. Ba2+ is potentially a useful tool to study mitochondrial Ca2+ transport.