The Relationship Between Cation-Induced Substrate Configuration and Enzymatic Activity of Phosphatidate Phosphohydrolase From Human Liver



Haghighi B¹ ; Yari M¹ ; Tori S¹ Show Affiliations
Source: Iranian Biomedical Journal Published:2000

Abstract

The mechanism by which bi-and trivalent cations affect human liver phosphatidate phosphohydrolase (PAP) activity was investigated. Bivalent cations up to 1 mM increased PAP activity whereas at higher concentrations the activity of the enzyme decreased. The stimulatory concentration for trivalent cations such as A13+ and Cr3+, however, was much lower being 2 m M and 1 m M, respectively. All cations affecting PAP activity were also able to induce phase transition of phosphatidate from lamellar (La) to inverted hexagonal (HII) form. The rate of La-HII transition was different for each cation. At 100 mM concentration of Mg2+ only 26% of the original phosphatidate remained in La form and for other cations tested ranged from 14.5% to 76%. The phase transition was blocked by EDTA. Magnesium from 0.8 to 1.5 mM concentration raised PAP activity (3-fold) with La form of substrate but not with the HII phase. Monovalent cations such as Na+ and K+ neither affected enzyme activity nor substrate configuration. These data suggest that cation-induced PAP activation is not as a result of cation-protein interaction, but is due to formation of a suitable substrate configuration for the enzyme catalysis during phosphatidate phase transition. It appears that the real substrate configuration for PAP activity is situated between La and HII phases.