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[Ca2+]i oscillations from internal stores sustain exocytic secretion from the chromaffin cells of the rat.
No full textA large (65%) fraction of in vitro cultured rat chromaffin cells exhibit spontaneous [Ca2+]i oscillations, and the rest can be recruited to oscillate by appropriate stimulations. Based on fura-2 single cell [Ca2+]i measurements, evidence is provided that these oscillations originate, via the activation of Ca(2+)-induced Ca(2+)-release, from intracellular Ca2+ stores in rapid equilibrium with extracellular Ca2+. By combining [Ca2+]i measurements with a specific plaque secretion assay we demonstrate that oscillating cells exhibit a spontaneous exocytic secretory activity whereas the cells with stable [Ca2+]i do not. [Ca2+]i oscillations appear therefore to account for the high unstimulated catecholamine release, an activity typical of the chromaffin cells of the rat
Intracellular Ca2+ pools in PC12 cells: three intracellular pools are distinguished for their turnover and mechanisms of Ca2+ accumulation, storage and release
No full textThree, non-cytosolic Ca2+ pools were characterized in intact PC12 cells. The first pool, sensitive to both inositol 1,4,5-trisphosphate and caffeine (Zacchetti, D., Clementi, E., Fasolato, C., Zottini, M., Grohovaz, F., Fumagalli, G., Pozzan, T., and Meldolesi, J. (1991) J. Biol. Chem. 266, 20152-20158) accounts for approximately equal to 200 microM of Ca2+/liter of cell water (less than 30% of total exchangeable Ca2+) and takes up Ca2+ from the cytosol via a Ca(2+)-ATPase, blocked by thapsigargin. A second pool, approximately equal to 400 microM/liter, is insensitive to both inositol 1,4,5-trisphosphate, caffeine, and thapsigargin and is released by the Ca2+ ionophore ionomycin. This pool is probably heterogeneous and its intracellular localization and physiological roles remain undefined. The third pool, approximately equal to 170 mumoles of Ca2+/liter, was discharged by the combination of ionomycin together with a substance that collapsed intracellular pH gradients, such as monensin or NH4Cl. This indicates that the pool is acidic, at variance with the first two. When exocytosis was stimulated, the size of this pool declined, indicating its primary residence within secretory granules. In the conditions of our experiments no major transfer of Ca2+ among the pools seemed to occur. This is the first comprehensive description of non-cytosolic Ca2+ pools investigated in intact neurosecretory cells by non-invasive procedures
Cell surface dynamics - how Rho GTPases orchestrate the interplay between the plasma membrane and the cortical cytoskeleton
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Rapidly exchanging Ca2+ stores of non-muscle cells.
No full textThe rapid and transient redistribution of calcium from intracellular stores is a key event of cell activation. The nature and molecular composition of intracellular Ca2+ stores of non-muscle cells are the object of intense investigation. In this paper, we review: (a) the experimental evidence in favor of the existence of intracellular, membrane-bound compartments specialized for uptake, storage and release of calcium, (b) the main protein components of rapidly exchanging Ca2+ stores, i.e. Ca2+ pump, intralumenal Ca2+ binding proteins (calsequestrin, calreticulin, etc.) and Ca2+ channels sensitive to either inositol 1,4,5-trisphosphate or Ca2+, caffeine and ryanodine, and (c) the relationship between Ca2+ stores and the endoplasmic reticulum
Spontaneous [Ca2+]i fluctuations in rat chromaffin cells do not require inositol 1,4,5-trisphosphate elevations but are generated by a caffeine- and ryanodine-sensitive intracellular Ca2+ store.
No full textA considerable fraction (65%) of single rat chromaffin cells loaded with the fluorescent [Ca2+]i indicator fura-2 exhibited spontaneous rhythmic fluctuations with an average period of approximately 100 s. Parallel patch clamp experiments as well as fura-2 experiments carried out in Ca2(+)-free and other modified media in the presence of Ca2+ and Na+ channel blockers indicated an origin from intracellular stores. Appropriate concentrations of agonists (bradykinin and histamine) for receptors (B2 and H1) that trigger generation of inositol 1,4,5-trisphosphate induced increased fluctuation frequency, recruitment of silent cells, and large [Ca2+]i changes at high doses. These effects were blocked by cell pretreatment with neomycin, a drug that inhibits inositol 1,4,5-trisphosphate generation. In contrast, spontaneous fluctuations and the effects of another drug, caffeine, which also induced increased frequency and recruitment, were unaffected by neomycin. Ryanodine caused first a prolongation and then (approximately 10 min) a block of both spontaneous fluctuations and caffeine effects, where the single transients after bradykinin and histamine were maintained. Caffeine and ryanodine are known to affect selectively the process of calcium-induced Ca2+ release; this is the first demonstration of [Ca2+]i fluctuation activity arising from Ca2(+)-induced Ca2+ release in nonmuscle cells with no strict requirement for inositol 1,4,5-trisphosphate involvement
Spontaneous [Ca2+]i fluctuations in rat chromaffin cells do not require inositol 1,4,5-trisphosphate elevations but are generated by a caffeine- and ryanodine-sensitive intracellular Ca2+ store
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