Evidence for protein dephosphorylation as a permissive step in GTP-gamma-S-induced exocytosis from permeabilized mast cells.

Mast cells permeabilized by streptolysin O secrete histamine and lysosomal enzymes in response to provision of a dual effector system comprising Ca2+ and a guanine nucleotide (e.g., GTP-gamma-S2) at concentrations in the micromolar range. These are both necessary and together they are sufficient. There is no requirement for adenosine triphosphate (ATP) and hence no obligatory phosphorylation reaction in the terminal stages of the exocytotic pathway. When exocytosis is induced by Ca2(+)-plus-GTP-gamma-S (i.e., no ATP) added at times after permeabilization (the permeabilization interval), cellular responsiveness declines so that there is no response to provision of the two effectors (both at 10(-5)M) if they are initially withheld and then added after 5 min. Here we show that this decline in responsiveness is characterized by a time-dependent reduction in the effective affinity for Ca2+. Affinity for Ca2+ and hence secretory competence can then be restored if ATP is added alongside the stimulus. Unlike cells stimulated to secrete at the time of permeabilization, exocytosis from cells that have undergone the cycle of permeabilization-induced refractoriness followed by ATP-induced restoration can be triggered by Ca2+ alone: after such conditioning there is no requirement for guanine nucleotide. In contrast, dependence on guanine nucleotide remains mandatory in cells that have been pretreated (i.e., before permeabilization) with okadaic acid (understood to be an inhibitor of protein phosphatases 1 and 2A) or phorbol myristate acetate (an activator of protein kinase C). These results indicate that obligatory dependence on guanine nucleotide is retained when the cells are treated under conditions conducive to maintained phosphorylation. It is concluded that the exocytotic mechanism of permeabilized mast cells is enabled by a dephosphorylation reaction and that the effector of the guanosine triphosphate (GTP)-binding protein (G epsilon) that mediates exocytosis is likely to be a protein phosphate.