Effect of detergents on the enzyme activities of the rat liver plasma membrane

Abstract

The anionic detergents sodium dodecyl sulfate (SDS) and Alipal CO-433 and the non-ionic detergent Trition X-100 at concentrations of 0.02–0.10% cause a more rapid solubilization of phospholipid than proteins in isolated rat liver plasma membranes. All three detergents cause an increase in membrane turbidity at low detergent concentration (0.01–0.04%) but then decrease the turbidity at higher detergent concentration (0.04–0.10%). Each detergent gives a characteristic turbidity-detergent concentration profile which is pH dependent. The activities of the membrane-bound enzymes Mg 2+ ATPase, 5′-nucleotidase and acid and aklaline phosphatase were influenced by each detergent to a different extent. Each enzyme gave a characteristic activity-detergent concentration profile. Mg 2+ ATPase was inhibited by all detergents. 5′-Nucleotidase was stimulated by Triton and Alipal but inhibited by SDS. Alkaline phosphatase was stimulated by Alipal and SDS and not influenced by Triton. Acid phosphatase was stimulated by Triton and inhibited by Alipal and SDS. 56% of the total membrane-bound alkaline phosphatase and 23% of the total membrane-bound 5′-nucleotidase was solubilized in an active form by 0.06% and 0.05% SDS respectively.