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W2024870161 startingPage "1830" @default.
W2024870161 abstract "We have studied the functional role of CaV3 channels in triggering fast exocytosis in rat chromaffin cells (RCCs). CaV3 T-type channels were selectively recruited by chronic exposures to cAMP (3 days) via an exchange protein directly activated by cAMP (Epac)-mediated pathway. Here we show that cAMP-treated cells had increased secretory responses, which could be evoked even at very low depolarizations (−50, −40 mV). Potentiation of exocytosis in cAMP-treated cells did not occur in the presence of 50 μM Ni2+, which selectively blocks T-type currents in RCCs. This suggests that the “low-threshold exocytosis” induced by cAMP is due to increased Ca2+ influx through cAMP-recruited T-type channels, rather than to an enhanced secretion downstream of Ca2+ entry, as previously reported for short-term cAMP treatments (20 min). Newly recruited T-type channels increase the fast secretory response at low voltages without altering the size of the immediately releasable pool. They also preserve the Ca2+ dependence of exocytosis, the initial speed of vesicle depletion, and the mean quantal size of single secretory events. All this indicates that cAMP-recruited CaV3 channels enhance the secretory activity of RCCs at low voltages by coupling to the secretory apparatus with a Ca2+ efficacy similar to that of already existing high-threshold Ca2+ channels. Finally, using RT-PCRs we found that the fast inactivating low-threshold Ca2+ current component recruited by cAMP is selectively associated to the α1H (CaV3.2) channel isoform." @default.
W2024870161 created "2016-06-24" @default.
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W2024870161 date "2006-03-01" @default.
W2024870161 modified "2023-10-14" @default.
W2024870161 title "Low-Threshold Exocytosis Induced by cAMP-Recruited CaV3.2 (α1H) Channels in Rat Chromaffin Cells" @default.
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W2024870161 doi "https://doi.org/10.1529/biophysj.105.071647" @default.
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