Translocation of cytosolic phospholipase A2 to the nuclear envelope elicits topographically localized phospholipid hydrolysis.

Abstract

Cytosolic phospholipase A2 (cPLA2) is a good candidate for mediating the agonist-stimulated release of arachidonic acid (AA) from membrane phospholipids. This enzyme undergoes a Ca(2+)-dependent translocation from the cytosol to a membrane site in a variety of cell types, and this site has recently been identified as the nuclear envelope in leucocytes. The functional correlate of this finding has not yet been established. The present study was therefore undertaken to determine whether translocation of cPLA2 to the nuclear envelope was associated with localized phospholipid hydrolysis at this site. Rat alveolar epithelial cells, previously shown to contain cPLA2, were prelabelled with [3H]AA and stimulated with the model agonist, ionophore A23187. Ionophore-induced AA release exhibited characteristics typical of a cPLA2-mediated response, in that it was Ca(2+)-dependent, sn-2 AA-selective, and inhibited by arachidonyl trifluoromethyl ketone. As determined by indirect immunofluorescence microscopic analysis as well as subcellular fractionation with immunoblotting, ionophore treatment resulted in a translocation of cPLA2 protein from the cytoplasm to the nuclear envelope. To determine whether the nuclear membrane was indeed the source of released AA, prelabelled cells were incubated in the presence or absence of A23187, after which the phospholipid radioactivity was quantified in nuclear and non-nuclear membrane fractions. [3H]AA was distributed in both nuclear and non-nuclear membrane phospholipids. Following A23187 stimulation, the loss of [3H]AA from nuclear membrane phospholipids accounted for 88.1 +/- 5.8% of the total loss from phospholipids and for 92.9 +/- 2.3% of the total [3H]AA released into the medium. These results demonstrate for the first time that agonist-stimulated translocation of cPLA2 to the nuclear envelope is associated with phospholipid hydrolysis which is preferentially localized to that site.