Bromoenol lactone, an inhibitor of Group V1A calcium-independent phospholipase A2 inhibits antigen-stimulated mast cell exocytosis without blocking Ca2+ influx

Calcium-independent phospholipase A2 (iPLA2β) has recently been suggested to regulate Ca2+ entry by activating store-operated Ca2+ channels. These studies have been conducted in mast cells using thapsigargin to deplete intracellular stores. In RBL 2H3 and bone marrow-derived mast cells (BMMCs), Ca2+ entry is critical for exocytosis and therefore we have examined whether the proposed mechanism would be relevant when a physiological stimulus is applied to these cells. Using an iPLA2β antibody, we demonstrate that the 84 kDa iPLA2β is expressed in these mast cells. As bromoenol lactone (BEL) is a suicide-based irreversible inhibitor of iPLA2β it was used to probe this potential mechanism. We observe inhibition of exocytosis stimulated either with antigen or with thapsigargin. However, BEL also inhibits exocytosis when stimulated using a Ca2+ ionophore A23187, which passively transports Ca2+ down a concentration gradient and also in permeabilised mast cells where Ca2+ entry is no longer relevant. Moreover, BEL has only a minor effect on antigen- or thapsigargin-stimulated Ca2+ signalling, both the release from internal stores and sustained elevation due to Ca2+ influx. These results cast doubt on the proposed mechanism involving iPLA2β required for Ca2+ entry. Although inhibition of exocytosis by BEL could imply a requirement for iPLA2β activation for exocytosis, an alternative explanation is that BEL inactivates other target proteins required for exocytosis.