Immunologic stimulation of mast cells leads to the reversible exposure of phosphatidylserine in the absence of apoptosis

Background: Loss of phospholipid asymmetry represents one of the hallmarks of apoptosis and results in the surface exposure of phosphatidylserine (PS) which can be indirectly monitored by the calcium-dependent binding of annexin V.

Methods and results: Here, we provide evidence that the IgE-dependent stimulation of a rat mast cell line, as well as murine and human nontransformed mast cells, leads to the exposure of PS at the plasma membrane. The appearance of PS was quantitatively related to allergic mediator release. Pharmacological agents that prevent stimulus-secretion coupling blocked PS cell surface exposure and calcium ionophore-induced PS appearance, suggesting that it is a direct consequence of exocytosis rather than early signaling events initiated by the aggregation of the high-affinity IgE receptor (FcepsilonRI). The surface exposure of PS in mast cells was reversible even in the continuous presence of stimulus and was not associated with the appearance of apoptotic nuclei, demonstrating that it was independent of physiological cell death.

Conclusions: In addition to providing a means of monitoring exocytosis at the single cell level, our results indicate that PS externalization in mast cells is not necessarily related to apoptosis but could be an important feature of the degranulation process.