H+-dependent efflux of Ca2+ from heart mitochondria

Abstract

A rapid loss of accumulated Ca²⁺ is produced by addition of H⁺ to isolated heart mitochondria. The H⁺-dependent Ca⁺ efflux requires that either (a) the NAD(P)H pool of the mitochondrion be oxidized, or (b) the endogenous adenine nucleotides be depleted. The loss of Ca²⁺ is accompanied by swelling and loss of endogenous Mg²⁻. The rate of H⁺-dependent Ca²⁺ efflux depends on the amount of Ca²⁺ and P_i taken up and the extent of the pH drop imposed. In the absence of ruthenium red the H⁺-induced Ca²⁺-efflux is partially offset by a spontaneous re-accumulation of released Ca²⁺. The H⁺-induced Ca²⁺ efflux is inhibited when the P_i transporter is blocked withN-ethylmaleimide, is strongly opposed by oligomycin and exogenous adenine nucleotides (particularly ADP), and inhibited by nupercaine. The H⁺-dependent Ca²⁺ efflux is decreased markedly when Na⁺ replaces the K⁺ of the suspending medium or when the exogenous K⁺/H⁺ exchanger nigericin is present. These results suggest that the H⁺-dependent loss of accumulated Ca²⁺ results from relatively nonspecific changes in membrane permeability and is not a reflection of a Ca²⁺/H⁺ exchange reaction.