pubmed:abstractText |
1. Latrotoxin (LTX, 1-3 nM) caused a gradual increase of the spontaneous catecholamine release rate in bovine adrenal chromaffin cells superfused with normal Krebs-Hepes solution containing 2.5 mM Ca2+. Ca2+ removal abolished this effect. LTX enhanced also the secretory responses to high K+ (35 or 70 mM) and to acetylcholine (ACh, 30 microM). 2. The application of Ca2+ pulses to cells previously superfused with a 0 Ca2+ solution (Krebs-Hepes deprived of CaCl2) induced secretory responses that gradually reached 400-800 nA of catecholamines, provided that LTX was present. The responses to ACh or 35 mM K+ pulses (in the presence of Ca2+) were also enhanced by LTX, from around 100-200 nA to over 1000 nA. Though such enhancement remained in the presence of Ca2+ channel blockers, it disappeared upon the lowering of [Na+]o or in electroporated cells. 3. Using protocols similar to those of secretion, LTX did not enhance basal 45Ca2+ uptake, whole-cell Ca2+ currents or basal [Ca2+]i. In fact, LTX attenuated the K(+)- or ACh-evoked increases in 45Ca2+ uptake and [Ca2+]i. 4. It is proposed that the secretory response to brief periods of Ca2+ reintroductions is triggered by local subplasmalemmal Ca2+i transients, produced by the Na(+)-Ca2+ exchanger of the plasma membrane working in the reverse mode. This situation might be physiologically reproduced during ACh stimulation of chromaffin cells, which is followed by the firing of Na(+)-dependent action potentials.
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