Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10842925 | Progress in Lipid Research | 2011 | 13 Pages |
Abstract
A phospholipase A2 was identified from MDCK cell homogenates with broad specificity toward glycerophospholipids including phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine, and phosphatidylglycerol. The phospholipase has the unique ability to transacylate short chain ceramides. This phospholipase is calcium-independent, localized to lysosomes, and has an acidic pH optimum. The enzyme was purified from bovine brain and found to be a water-soluble glycoprotein consisting of a single peptide chain with a molecular weight of 45 kDa. The primary structure deduced from the DNA sequences is highly conserved between chordates. The enzyme was named lysosomal phospholipase A2 (LPLA2) and subsequently designated group XV phospholipase A2. LPLA2 has 49% of amino acid sequence identity to lecithin-cholesterol acyltransferase and is a member of the αβ-hydrolase superfamily. LPLA2 is highly expressed in alveolar macrophages. A marked accumulation of glycerophospholipids and extensive lamellar inclusion bodies, a hallmark of cellular phospholipidosis, is observed in alveolar macrophages in LPLA2â/â mice. This defect can also be reproduced in macrophages that are exposed to cationic amphiphilic drugs such as amiodarone. In addition, older LPLA2â/â mice develop a phenotype similar to human autoimmune disease. These observations indicate that LPLA2 may play a primary role in phospholipid homeostasis, drug toxicity, and host defense.
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Authors
James A. Shayman, Robert Kelly, Jessica Kollmeyer, Yongqun He, Akira Abe,