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  • Title: Modulation of muscle phosphofructokinase at physiological concentration of enzyme.
    Author: Boscá L, Aragón JJ, Sols A.
    Journal: J Biol Chem; 1985 Feb 25; 260(4):2100-7. PubMed ID: 2982809.
    Abstract:
    Two approaches have been used to study the allosteric modulation of phosphofructokinase at physiological concentration of enzyme; a "slow motion" approach based on the use of a very low Mg2+/ATP ratio to conveniently lower Vmax, and the addition of polyethylene glycol as a "crowding" agent to favor aggregation of diluted enzyme. At 0.6 mg/ml muscle phosphofructokinase exhibited a drastic decrease in the ATP inhibition and the concomitant increase in the apparent affinity for fructose-6-P, as compared to a 100-fold diluted enzyme. Similar results were obtained with diluted enzyme in the presence of 10% polyethylene glycol (Mr = 6000). Results with these two approaches in vitro were essentially similar to those previously observed in situ (Aragón, J. J., Felíu, F. E., Frenkel, R., and Sols, A. (1980) Proc. Natl. Acad. Sci. U. S. A. 77, 6324-6328), indicating that the enzyme is strongly dependent on homologous interactions at physiological concentrations. With polyethylene glycol it was observed that within the physiological range of concentration of substrates and the other positive effectors, fructose-2,6-P2 still activates the liver phosphofructokinase although it no longer significantly affects the muscle isozyme. In the presence of polyethylene glycol, muscle phosphofructokinase can approach its maximal rate even in the presence of physiologically high concentrations of ATP. Three minor activities of muscle phosphofructokinase have been studied at high enzyme concentration: the hydrolysis of MgATP (ATPase) and fructose-1,6-P2 (FBPase), produced in the absence of the other substrate, and the reverse reaction from MgADP and fructose-1,6-P2. The kinetic study of these activities has allowed a new insight into the mechanisms involved in the modulation of phosphofructokinase activity. The binding of (Mg)ATP at its regulatory site reduces the ability of the enzyme to cleave the bond of the terminal phosphate of MgATP at the substrate site. The positive effectors (Pi, cAMP, NH+4, fructose-1,6-P2, and fructose-2,6-P2) decrease the inhibitory effect of MgATP. Citrate and fructose-2,6-P2 both act as mechanistically "secondary" effectors in the sense that citrate does not inhibit and fructose-2,6-P2 does not activate the FBPase activity, requiring both the presence of ATP to affect the enzyme activity. In conclusion it appears that the regulatory behavior of mammalian phosphofructokinases is utterly dependent on the fact of their high concentrations in vivo.
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