High specificity of human secretory class II phospholipase A2 for phosphatidic acid

Abstract

Lysophosphatidic acid (LPA) is a potent lipid second messenger which stimulates platelet aggregation, cell proliferation and smooth-muscle contraction. The phospholipase A₂ (PLA₂)-catalysed hydrolysis of phosphatidic acid (PA) is thought to be a primary synthetic route for LPA. Of the multiple forms of PLA₂ present in human tissues, human secretory class-II PLA₂ (hs-PLA₂) has been implicated in the production of LPA from platelets and whole blood cells challenged with inflammatory stimuli. To explore further the possibility that hs-PLA₂ is involved in the production of LPA, we rigorously measured the phospholipid head group specificity of hs-PLA₂ by a novel PLA₂ kinetic system using polymerized mixed liposomes. Kinetic analysis of recombinant hs-PLA₂ demonstrates that hs-PLA₂ strongly prefers PA as substrate over other phospholipids found in the mammalian plasma membrane including phosphatidylserine (PS), phosphatidylcholine (PC) and phosphatidylethanolamine (PE). The order of preference is PA≫PE≈PS > PC. To identify amino acid residues of hs-PLA₂ that are involved in its unique substrate specificity, we mutated two residues, Glu-56 and Lys-69, which were shown to interact with the phospholipid head group in the X-ray-crystallographic structure of the hs-PLA₂Őtransition-state-analogue complex. The K69Y mutant showed selective inactivation toward PA whereas the E56K mutant displayed a most pronounced inactivation to PE. Thus it appears that Lys-69 is at least partially involved in the PA specificity of hs-PLA₂ and Glu-56 in the distinction between PE and PC. In conjunction with a recent cell study [Fourcade, Simon, Viodé, Rugani, Leballe, Ragab, Fournié, Sarda and Chap (1995) Cell 80, 919Ő927], these studies suggest that hs-PLA₂ can rapidly hydrolyse PA molecules exposed to the outer layer of cell-derived microvesicles and thereby produce LPA.