Am. J. Respir. Cell Mol. Biol., Volume 21, Number 2, August, 1999 253-258

Role of Arachidonyl Triglycerides within Lipid Bodies in Eicosanoid Formation by Human Polymorphonuclear Cells

Margaret M. Johnson, Benjamin Vaughn, Massimo Triggiani, Dennis D. Swan, Alfred N. Fonteh, and Floyd H. Chilton

Department of Medicine, Mayo Clinic Jacksonville, Jacksonville, Florida; Departments of Internal Medicine (Pulmonary Division) and Physiology/Pharmacology, Wake Forest University School of Medicine, Winston-Salem, North Carolina; and Departments of Internal Medicine (Clinical Immunology and Allergy Division), University of Naples Federico II School of Medicine, Naples, Italy

Increasing evidence suggests that the subcellular and glycerolipid localization of esterified arachidonic acid (AA) is a key factor in regulating its availability to lipases. The goal of the current study was to determine the potential of AA stored in triglycerides (TG) to serve as a substrate for lipases and 5-lipoxygenase during neutrophil (polymorphonuclear leukocytes, PMN) activation. PMN containing high concentrations of AA in TG were generated by culturing PMN in vitro with high concentrations of exogenous AA (eAA) for 12 h. Cellular AA increased 2- and 4-fold in PMNs incubated with 5 and 20 µM AA, respectively, and this increase was almost exclusively observed in neutral lipids (NL). Further analysis revealed that 88% of the AA in the NL fraction was associated with TG. Subsequent experiments were designed to determine whether this AA in TG could be mobilized and metabolized to eicosanoids during cell activation. TG pools of AA were increased as previously described and then PMN were stimulated with ionophore, A23187. In contrast to the 43-fold increase in TG AA after eAA loading (20 µM), free AA increased by only 1.9-fold after cell stimulation. Similarly, leukotriene (LT)B₄ production increased only 2-fold after loading TG with large quantities of AA. The magnitude of increase in free AA released and in LTB₄ formation was similar to the magnitude of increase in AA mass in phospholipase (PL), suggesting that PL, and not TG, served as the source of released AA and subsequent product generation. To confirm that AA in TG did not serve as a source for eicosanoid production, cellular pools of AA were differentially labeled with [¹⁴C]AA and [³H]AA, and the [³H]AA-to-[¹⁴C]AA ratio of LTB₄ and 20-hydroxyl LTB₄ produced during cell stimulation was measured. The [³H]AA/[¹⁴C]AA ratios of LTs were markedly different from the ratios in TG, thus providing further evidence that AA pools in TG are not a major source of AA for LT generation.

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