Role of calcium and membrane organization on phospholipase D localization and activity. Competition between a soluble and insoluble substrate.

The phospholipase D (PLD) from Streptomyces chromofuscus is a soluble enzyme known to be activated by the phosphatidic acid-calcium complexes. PLD-catalyzed hydrolysis of phospholipids in aqueous medium leads to the formation of phosphatidic acid (PA). Previous studies concluded on an allosteric activation of PLD by the PA-calcium complexes. In this work, the role of PA and calcium was investigated in terms of membrane structure and dynamics. The role of calcium in PLD partitioning between the soluble phase and the water-lipid interface was tested. The monomolecular film technique was used to measure both membrane dynamics and PLD activity. These experiments provided information on PLD activity at a water-lipid interface. Moreover, the ability of PA to enhance PLD activity toward phosphatidylcholine was correlated to the physical properties of PA itself, affecting the rheology of the membrane. The effect of calcium was investigated on PLD binding to lipids and on the catalytic process by competition experiments between a soluble and a vesicular substrate. These experiments confirmed the absolute PLD requirement for calcium and pointed out the importance of calcium for PLD catalytic process and for the enzyme location at the water-lipid interface.