The role of Mg2+ in the regulation of the structural and functional steady-states in rat liver mitochondria

Abstract

A possible relationship between mitochondrial Mg²⁺ levels, structural configurations, and functional steady states has been studied in rat liver mitochondria. The results show that the concentration of mitochondrial Mg²⁺ in respiratory state 4 is definitely higher than in respiratory state 3. The metabolic transition from state 3 to state 4 and vice-versa is associated with reversible influx-efflux of about 10 nmol of Mg²⁺ per mg protein. The net uptake of this aliquot of Mg²⁺ is a necessary condition in order for the metabolic transition to state 4, both structurally and functionally, to occur. This process requires a threshold concentration of external Mg²⁺ greater than 5 mM. The phosphorylative mechanism does not appear to depend on the presence or absence of external Mg²⁺. The role of Mg²⁺ on the attainment and maintenance of the structural and functional steady state 4 seems to be correlated with its regulatory effect on the concentration of the mitochondrial P_i.