Cytosolic Phosphofructokinase from Spinach Leaves : II. Affinity for Mg and Nucleoside Phosphates

Cytosolic ATP-phosphofructokinase (PFK) from spinach leaves (Spinacia oleracea L.) was inhibited by submillimolar concentrations of free Mg²⁺. The free Mg²⁺ concentration required for 50% inhibition of PFK activity was 0.22 millimolar. Inhibition by free Mg²⁺ was independent of the MgATP²⁻ concentration. Inorganic phosphate (Pi) reduces the inhibition of PFK activity by Mg²⁺. Free ATP (ATP⁴⁻) also inhibits PFK activity. For free ATP the inhibition of PFK activity was dependent on the MgATP²⁻ concentration. Fifty percent inhibition of PFK activity requires 1.2 and 3.7 millimolar free ATP at 0.1 and 0.5 millimolar MgATP²⁻, respectively. It was proposed that free ATP competes for the MgATP²⁻ binding site, whereas free Mg²⁺ does not. Pi diminished the inhibitory effect of free ATP on PFK activity. Free ATP and Pi had substantial effects on the MgATP²⁻ requirement of cytosolic PFK. For half-maximum saturation of PFK activity 3 and 76 micromolar MgATP²⁻ was required at 0.007 and 0.8 millimolar free ATP in the absence of Pi. At 5 and 25 millimolar Pi, half-maximum saturation was achieved at 9 and 14 micromolar MgATP²⁻. PFK activity was inhibited by Ca²⁺. The inhibition by Ca²⁺ depends upon the total Mg²⁺ concentration. Fifty percent inhibition of PFK activity required 22 and 32 micromolar Ca²⁺ at 0.1 and 0.2 millimolar Mg²⁺, respectively. At physiological concentrations of about 0.5 millimolar free Mg²⁺, Ca²⁺ would have little effect on cytosolic PFK activity from spinach leaves. PFK is not absolutely specific for the nucleoside 5′-triphosphate substrate. Besides MgATP²⁻, MgUTP²⁻, MgCTP²⁻, and MgGTP²⁻ could be used as a substrate. All four free nucleotides inhibit PFK activity. The physiological consequences of the regulatory properties of cytosolic PFK from spinach leaves will be discussed. A model will be introduced, in an attempt to describe the complex interaction of PFK with substrates and the effectors Mg²⁺ and Pi.