Nigericin modifies the mechanism of the uncoupling action of bile acids in rat liver mitochondria by converting ΔpH into Δψ.

Abstract

Cholestasis caused by impaired bile secretion in the liver is associated with the accumulation of primary bile acids (BA): cholic acid (CA) and chenodeoxycholic acid (CDCA) in the cells of this organ. The paper studies the uncoupling effect of the CA and CDCA on the succinate-fueled rat liver mitochondria under conditions of ΔpH to Δψ conversion by nigericin. It has been established that without nigericin, the dependence of the resting-state (state 4) respiration rate on the concentrations of these BA is nonlinear and is described by a parabolic equation. Under these conditions, the specific inhibitor of the ADP/ATP-antiporter - carboxyatractylate and the substrate of the aspartate/glutamate-antiporter - glutamate do not affect the state 4 respiration of mitochondria stimulated by these BA. It is suggested that without nigericin, the protonophore action of BA is due to the formation of a dimeric complex of their anion with the acid. In the presence of nigericin, the dependence of state 4 respiration rate on BA concentration is linear. Under these conditions, carboxyatractylate inhibits BA-stimulated respiration. Unlike the CDCA, the uncoupling action of CA is also suppressed by the substrates of the aspartate/glutamate-antiporter. The obtained results are considered as evidence that in the presence of nigericin, uncoupling action of CDCA is carried out primarily with the participation of ADP/ATP-antiporter. Both ADP/ATP-antiporter and aspartate/glutamate-antiporter are involved in the uncoupling action of CA. It is concluded that nigericin modifies the mechanism of the uncoupling action of BA in liver mitochondria by converting ΔpH to Δψ.