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Vacuolin-1-modulated exocytosis and cell resealing in mast cells

Publication at Third Faculty of Medicine |
2009

Abstract

The small chemical vacuolin-1 induces rapid formation of large vacuoles in various cell types. In epithelial cells, vacuolin-1 has been shown to inhibit Ca2+ ionophore-induced exocytosis depending on experimental conditions used but had no effect on repair of damaged membranes.

However, it is not known whether vacuolin-1 could inhibit exocytosis induced by immunoreceptor triggering in professional secretory cells and whether there is any correlation between effect of vacuolin-1 on exocytosis and membrane repair in such cells. Here we show that in rat basophilic leukemia (RBL-2H3) cells activated by the high-affinity IgE receptor (FcεRI) triggering vacuolin-1 enhanced exocytosis.

Under identical conditions of activation, vacuolin-1 inhibited exocytosis in mouse bone marrow-derived mast cells (BMMCs). This inhibition was not reflected by decreased phosphorylation of the FcεRI α and β subunits, linker for activation of T cells, non-T cell activation linker, Akt and MAP kinase Erk, and uptake of extracellular Ca2+, indicating that early activation events are not affected.

In both cell types vacuolin-1 led to formation of numerous vacuoles, a process which was inhibited by bafilomycin A1, an inhibitor of vacuolar H+-ATPase. Thapsigargin- or Ca2+ ionophore A23187-induced exocytosis also showed different sensitivity to the inhibitory effect of vacuolin-1.

Pretreatment of the cells with vacuolin-1 followed by permeabilization with bacterial toxin streptolysin O enhanced Ca2+-dependent repair of plasma membrane lesions in RBL-2H3 cells but inhibited it in BMMCs. Our data indicate that lysosomal exocytosis exhibits different sensitivity to vacuolin-1 depending on the cell type analyzed and mode of activation.

Furthermore, our results support the concept that lysosomal exocytosis is involved in the repair of injured plasma membranes.