Stimulation and inhibition of secretion in Paramecium: role of divalent cations.

The effects of Ca2+ and Mg2+ on exocytosis in Paramecium tetraurelia cells were examined with light microscopy, freeze fracture (FEM) and transmission electron microscopy (TEM) of thin-sectioned embedded cells. Picric acid-Ca2+-induced secretion in wild type (wt) cells was captured by "quick" fixation with OsO4, and TEM demonstrated membrane fusion occurring before trichocyst matrix (tmx) expansion. Cells stimulated with picric acid in the presence of high extracellular Mg2+ showed very few sites of membrane fusion and no tmx expansion, suggesting that Ca2+ is required for both membrane fusion and tmx expansion. Further information was obtained by comparing secretory responses of wt cells with a temperature-sensitive secretory mutant, nd 9. These cells when grown at the permissive temperature (18 degrees C) possess normal rosettes at the secretory site and secrete in response to picric acid-Ca2+, but when grown at 27 degrees C they lack rosettes and do not secrete (Beisson, J., M. Lefort-Tran, M. Pouphile, M. Rossignol, and B. Satir, 1976, J. Cell Biol., 69:126-143). Quantitation of picric acid-Ca2+-induced secretion revealed that: (a) the number of tmx secreted by wt and nd 9 cells was independent of their cultural growth phase, (b) wt cells secreted the same number of tmx when grown either at 18 or 27 degrees C, and (c) nd 9 18 degrees C cells secreted the same number of tmx as wt 18 or 27 degrees C cells. Wild type and nd 9 cells had the same frequencies of occupied and unoccupied secretory sites as determined by quantitative analysis of freeze-fracture replicas. After stimulation with divalent cation ionophore A23187 and Ca2+, wt cells showed a significant reduction in the frequency of occupied sites. FEM and TEM studies revealed that A23187-Ca2+ induced tmx expansion and normal fusion of the plasma and trichocyst membranes in wt and nd 9 18 degrees C cells, but induced tmx expansion without concomitant membrane fusion in nd 9 27 degrees C cells. The lack of membrane fusion in nd 9 27 degrees C cells suggests that the molecules represented by rosette particles are required specifically for membrane fusion.