MICROSOMAL CHOLESTEROL ESTER HYDROLASE OF RAT-BRAIN - LIPIDS AS EFFECTOR OF ENZYMATIC-ACTIVITY

Evidence is presented that lipid plays an important role in the function of the microsomal cholesterol ester hydrolase of rat brain. The catalytic activity was almost completely lost when most of cholesterol and up to 70% of phospholipids were removed from lyophilized microsomes by extraction with chloroform at -20 °C. The activity was completely restored when the chloroform-extracted lipid was added back to the assay mixture in the amount equal to the original concentration. Cholesterol or individual phospholipid alone was not effective in reconstituting the lost enzymatic activity. Effective restoration of the activity required addition of cholesterol and a phospholipid. Among the phospholipids tested, phosphatidylserine was the most effective, followed by ethanolamine phospholipids and phosphatidylcholine. The apparent V was dependent on the amount of the lipid added, while the Km for the substrate, cholesteryl oleate, remained relatively constant, indicating that the effect of the added lipid was primarily on the reaction rate and not on the affinity of the enzyme to the substrate. The similar lipid dependence was observed with the Triton X-100-solubilized enzyme preparation. When the lipid phase of the microsomal membrane was perturbed, the enzyme became unstable when heated at 50 °C and its activity showed a discontinuity in the Arrhenius plots. Therefore, not only the concentration of the added lipid but also the physical state of the lipid phase around the enzyme appeared to be important for the activity of the rat brain microsomal cholesterol ester hydrolase. © 1979.