Regulation of the mitochondrial adenine nucleotide pool size

Abstract

A mechanism by which normal adult rat liver mitochondria may regulate the matrix adenine nucleotide content was studied in vitro. If mitochondria were incubated with 1 m m ATP at 30 ° C in 225 m m sucrose, 2 m m K 2HPO 4, 5 m m MgCl 2, and 10 m m Tris-Cl (pH 7.4), the adenine nucleotide pool size increased at a rate of 0.44 ± 0.02 nmol/mg mitochondrial protein/min. The rate of adenine nucleotide accumulation under these conditions was concentration dependent and specific for ATP or ADP; AMP was not taken up. The rate of net ADP uptake was 50–75% slower than that for ATP. The K m values for net uptake of ATP and ADP were 2.08 and 0.36 m m, respectively. Adenine nucleotide uptake was stoichiometrically dependent on Mg 2+ and stimulated by inorganic phosphate. Net uptake was inhibited by n-ethylmaleimide, or mersalyl, but not by n-butylmalonate. Nigericin inhibited net uptake, but valinomycin did not. In the presence of uncouplers, net uptake was not only inhibited, but adenine nucleotide efflux was observed instead. Like uptake, uncoupler-induced efflux of adenine nucleotides was inhibited by mersalyl, indicating that a protein was required for net flux in either direction. Carboxyatractyloside, bongkrekic acid, or respiratory substrates reduced the rate of adenine nucleotide accumulation, however, this did not appear to be a direct inhibition of the transport process, but rather was probably related indirectly to an increase in the matrix ATP ADP ratio. The collective properties of the transport mechanism(s) for adenine uptake and efflux were different from those which characterize any of the known transport systems. It is proposed that uptake and efflux operate to regulate the total matrix adenine nucleotide pool size: a constant pool size is maintained if the rates of uptake and efflux are equal. Transient alterations in the relative rates of uptake and efflux may occur in response to hormones or other metabolic signals, to bring about net changes in the pool size.