Abstract
The rate of production of 1- O-alkyl- sn-glycero-3-phosphocholune (PAF) and 1-acyl-2-acetyl- sn-glycero-3-phosphocholin (acylPAF) was measured in macrophages following the incorporation of [ 3H]acetate. Upon activation by A23187, guinea pig alveolar macrophages incorporated [ 3H]acetate into PAF, but a little radioactivity was found in acylPAF. However, labeling of acylPAF and PAF with [ 3H]acetate was greatly enhanced in A23187-stimulated alveolar macrophages that had been pretreated with phenylmethanesulphonyl fluoride (PMSF). [ 3H]PAF was predominantly converted to 1-[ 3H]alkyl-2-acyl glycerophosphocholine, but [ 14C]PAF rapidly hydrolyzed to 14C-labeled free fatty acid by in incubation with lysates prepared from macrophages. The deacetylation of [ 14C]acylPAF and [ 3H]PAF by acetylhydrolase and also the hydrolysis of [ 14C]lysolPC by lysophospholipase were strongly inhibited in macrophages that had been pretreated with PMSF, while PMSF failed to inhibit the activities of acetyltransferase and acyltransferase. The relative proportions of PAF and acylPAF were quite different in different types of cells. In contrast to alveolar macrophages, peritoneal macrophages, neutrophils and spleen cells from guinea pigs incorporated 2–4 times more [ 3H]acetate into acylPAF than into PAF. The presence of high levels of acylPAF in peritoneal macrophages was confirmed by GLC-MS analysis. The activities of lysophospholipase, acetylhydrolase and acetyltransferase were measured in alveolar and peritoneal macrophages to determine whether the preferential formation of acylPAF as compared to PAF in peritoneal macrophages was due to differences in these activities between alveolar and peritoneal macrophages. The activity of acetylhydrolase of peritoneal macrophages was almost the same as that in alveolar macrophages. The activity of acetyltransferase in peritoneal macrophages was about half of that in alveolar macrophages. However, the activity of lysophospholipase in peritoneal macrophages was one-sixth of that in alveolar macrophages. These results suggest that lysophospholiphase is one of the primary factors involved in the control of the production of acylPAF in activated cells, and that it acts by modulating the availability of lysoPC for the synthesis of acylPAF. Furthermore, high levels of activity of lysophospholipase allow the preferential formation of PAF, via the rapid hydrolysis of lysoPC which would act as a competitive inhibitor of the incorporation of acetate into lysoPAF.
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More From: Biochimica et Biophysica Acta (BBA)/Lipids and Lipid Metabolism
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