Bile Acid-Induced Ca²⁺ Efflux from Liver Mitochondria as a Factor Preventing the Formation of Mitochondrial Pores

The effect of bile acids as inducers of Ca²⁺ efflux from the matrix was studied on isolated rat liver mitochondria. Mitochondria in the presence of cyclosporin A (CsA) were energized by succinate, then loaded with Ca²⁺ and after the addition of the calcium uniporter inhibitor ruthenium red were de-energized by malonate. It was shown that under these conditions hydrophobic bile acids lithocholic and chenodeoxycholic at concentrations of 10 and 30 μM respectively and hydrophilic bile acids ursodeoxycholic and cholic at a concentration of 400 μM induce Ca²⁺ efflux from the mitochondrial matrix. It is noted that the efflux of these ions is not associated with damage of the inner mitochondrial membrane by bile acids, since it is accompanied by the generation of Δψ, i.e., the formation of the diffusion potential. It is assumed that along with induction of calcium efflux from the matrix, bile acids are also capable of transporting hydrogen and potassium ions in the opposite direction, i.e., perform H⁺/Ca²⁺ and K⁺/Ca²⁺ exchange. It was found that ruthenium red added to Ca²⁺-loaded energized mitochondria prevents the return of these ions to the matrix and weakens the effect of chenodeoxycholic acid as an inducer of the CsA-sensitive mitochondrial pore and the effect of ursodeoxycholic acid as an inducer of CsA-insensitive permeability of the inner mitochondrial membrane. We conclude that in the conditions of the calcium uniporter activity decrease, Ca²⁺ efflux from the matrix induced by bile acids can be considered as one of the mechanisms reducing their effectiveness as inducers of the Ca²⁺-dependent CsA-sensitive pore and CsA-insensitive permeability transition in mitochondria.