High-Pressure Extraction of Membrane-Associated Protein Kinase C from Rat Brain

Abstract

Extraction of rat brain membrane-associated protein kinase C with high specific activity was obtained by applying benzyl alcohol (a membrane fluidizer), EDTA, and high hydrostatic pressures. Approximately 50% of total brain-associated activity was extracted from membranes. The pressure-extracted activity had an eightfold enrichment in the lipid/protein ratio when compared with the cytosolic fraction. This may explain the inability of exogenous diacylglycerol to stimulate endogenous phosphorylation in pressure-extracted activity. The enzyme is extracted at > 1,300 atm, a result indicating it most likely has a portion inserted into the hydrophobic portion of the membrane bilayer. Perturbation of the native membrane induces a change in the membrane-associated protein kinase C-lipid interaction that permits extraction under conditions used for the cytosolic species. This is the first report of conversion of the endogenous membrane species to a cytosolic one and may be important in determining the role of protein kinase C in neuronal regulation.