Release of 14‐kDa group‐II phospholipase A2 from activated mast cells and its possible involvement in the regulation of the degranulation process

Abstract

Group II phospholipase A₂ was detected in appreciable amounts in rat peritoneal mast cells. The effect of several inhibitors specific to 14-kDa group-II phospholipase A₂, including two proteinaceous inhibitors and a product of microorganisms with a low molecular mass, on mast-cell activation was examined. When rat peritoneal mast cells were sensitized with IgE and then challenged with antigen, the specific phospholipase-A₂ inhibitors suppressed histamine release in a concentration-dependent manner. By contrast, these inhibitors showed no effect on prostaglandin generation under the same conditions. Histamine release from rat peritoneal mast cells subjected to non-immunochemical stimuli, such as concanavalin A, the Ca²⁺ ionophore A23187, compound 48/80 and substance P was also suppressed. When rat peritoneal mast cells were treated with 14-kDa-group-II-phospholipase-A₂-specific inhibitors, washed and stimulated, histamine release was not affected appreciably. Similar suppressive effects of the inhibitors on histamine release were observed with mouse cultured bone-marrow-derived mast cells. When bone-marrow-derived mast cells were activated, they secreted both a soluble and an ecto-enzyme form of 14-kDa group-II phospholipase A₂, although appearance of the enzyme associated with the external surface of cells was observed transienty. An appreciable amount of membrane phospholipids was degraded during activation of mast cells, which was de-creased by treatment with 14-kDa-group-II-phospholipase-A₂ inhibitor. These observations suggest that degranulation and eicosanoid generation in mast cells are regulated independently by discrete phospholipases A₂ and that the 14-kDa group-II phospholipase A₂ released from mast cells during activation may play an essential role in the progression of the degranulation process.