Group X secretory phospholipase A2 negatively regulates ABCA1 and ABCG1 expression and cholesterol efflux in macrophages.

OBJECTIVE: GX sPLA(2) potently hydrolyzes plasma membranes to generate lysophospholipids and free fatty acids; it has been implicated in inflammatory diseases, including atherosclerosis. To identify a novel role for group X (GX) secretory phospholipase A(2) (sPLA(2)) in modulating ATP binding casette transporter A1 (ABCA1) and ATP binding casette transporter G1 (ABCG1) expression and, therefore, macrophage cholesterol efflux. METHODS AND RESULTS: The overexpression or exogenous addition of GX sPLA(2) significantly reduced ABCA1 and ABCG1 expression in J774 macrophage-like cells, whereas GX sPLA(2) deficiency in mouse peritoneal macrophages was associated with enhanced expression. Altered ABC transporter expression led to reduced cholesterol efflux in GX sPLA(2)-overexpressing J774 cells and increased efflux in GX sPLA(2)-deficient mouse peritoneal macrophages. Gene regulation was dependent on GX sPLA(2) catalytic activity, mimicked by arachidonic acid and abrogated when liver X receptor (LXR)α/ß expression was suppressed, and partially reversed by the LXR agonist T0901317. Reporter assays indicated that GX sPLA(2) suppresses the ability of LXR to transactivate its promoters through a mechanism involving the C-terminal portion of LXR spanning the ligand-binding domain. CONCLUSIONS: GX sPLA(2) modulates gene expression in macrophages by generating lipolytic products that suppress LXR activation. GX sPLA(2) may play a previously unrecognized role in atherosclerotic lipid accumulation by negatively regulating the genes critical for cellular cholesterol efflux.

Improved method for the quantification of lysophospholipids including enol ether species by liquid chromatography-tandem mass spectrometry.

LC/ESI-MS/MS has been previously demonstrated to be a powerful method to detect and quantify molecular species of glycerophospholipids including lysophospholipids. In this study, we provide an improved pre-mass spectrometry lipid extraction procedure that avoids the acid-catalyzed decomposition of plasmenyl phospholipids that is problematic with previously reported methods. We show that the use of lysophospholipid internal standards with perdeuterated fatty acyl chains avoids isobar problems associated with the use of internal standards containing odd carbon number fatty acyl chains. We also show that LC prior to MS is required to avoid numerous problems associated with isobars and with MS in-source decomposition of lysophosphatidylserine. The reported method of using normal phase chromatography/ESI-MS is used to quantify lysophospholipids in serum and to quantify lysophospholipids produced in mammalian cells by human group X secreted phospholipase A(2). The latter shows that group X phospholipase A(2) added exogenously to cells generates a different set of lysophospholipids compared with enzyme produced endogenously in cells, which supports earlier studies showing that this phospholipase A(2) can act on cell membranes prior to externalization from cells.

Inhibition of secretory phospholipase A2-induced cytokine production in human lung macrophages by budesonide.

BACKGROUND: Secretory phospholipases A(2) (sPLA(2)) are an emerging class of mediators of inflammation. These enzymes are released in vivo in patients with systemic inflammatory diseases and allergic disorders. sPLA(2)s may activate inflammatory cells by both enzymatic and nonenzymatic mechanisms. The aim of this study was to evaluate the effect of the inhaled glucocorticoid budesonide on sPLA(2)-induced activation of primary human macrophages. METHODS: Macrophages isolated from human lung tissue were preincubated (3-18 h) with budesonide (1-1,000 nM) before stimulation with 2 distinct sPLA(2)s (group IA and group X). At the end of incubation the release of TNF-alpha, IL-6 and IL-8 was assessed by ELISA. Specific mRNA for these products was determined by quantitative RT-PCR. Activation of mitogen-activated kinases ERK 1/2 and p38 was assessed by Western blot. RESULTS: Budesonide inhibited the release of TNF-alpha, IL-6 and IL-8 from sPLA(2)-stimulated macrophages in a concentration-dependent manner. The inhibitory effect of budesonide was due to a reduction of gene expression and was complete after 18 h of preincubation. Budesonide had no effect on sPLA(2)-induced arachidonic acid mobilization and exocytosis, assessed as beta-glucuronidase release. Suppression of cytokine/chemokine production by budesonide was associated with inhibition of sPLA(2)-induced ERK 1/2 and p38 activation. CONCLUSIONS: Budesonide inhibits the production of proinflammatory cytokines/chemokines from human lung macrophages activated by sPLA(2). Budesonide represents the first example of a drug able to block the nonenzymatic effects of sPLA(2) on human inflammatory cells and, therefore, may provide a useful therapeutic options for diseases associated with enhanced release of sPLA(2)s in vivo.