Solubilization of the enzyme catalyzing CDP-diglyceride-independent incorporation of myo-inositol into phosphatidyl inositol and its comparison to CDP-diglyceride:inositol transferase.

A solubilized preparation with activity for catalyzing the incorporation of free myo-inositol into phosphatidyl inositol was obtained from a rat liver microsomal fraction. The incorporation took place both in the presence and in the absence of cytidine diphosphodiglyceride (CDP-DG). The pH optimum of the incorporation in the absence of CDP-DG was 7.4–7.5, while that of the incorporation in its presence was 8.5–8.6. The incorporation in the absence of CDP-DG was activated by Mn²⁺ but not by Mg²⁺, while that in the presence of CDP-DG was activated by either Mn²⁺ or Mg²⁺. These results indicated that the incorporation in the absence of CDP-DG and the incorporation in its presence were catalyzed by different enzymes. Before Solubilization, the CDP-DG-independent enzyme was bound to endoplasmic reticulum. The CDP-DG-dependent enzyme also was bound mainly to endoplasmic reticulum and, to a minor extent, to plasma membrane. The CDP-DG-independent enzyme was more easily solubilized by sodium cholate than the CDP-DG-dependent enzyme. There were also differences between these two enzyme activities of the solubilized preparation with respect to their sensitivity to various detergents and their dependence on exogenous lipids. The CDP-DG-independent incorporation was inhibited by CDP-DG, by some nucleotides, and by phosphatidyl serine, while the CDP-DG-dependent incorporation was not inhibited by these substances. Both activities were both inhibited by thiol-reactive compounds.