Gambierol action on K(+) currents and catecholamine release in cultured single chromaffin cells from fetal rat adrenal medulla - Archive ouverte HAL
Poster De Conférence Année : 2021

Gambierol action on K(+) currents and catecholamine release in cultured single chromaffin cells from fetal rat adrenal medulla

Résumé

Gambierol, characterized by a transfused octacyclic polyether core, was first isolated and chemically typified from cultured Gambierdiscus toxicus dinoflagellates collected in French Polynesia. Subsequently, distinct groups in Japan and the USA, using various strategies, achieved its total chemical synthesis. This allowed detailed studies on its mode of action. Gambierol inhibits voltage-gated K+ (KV) channels in various excitable and non-excitable cells, as well as in motor nerve terminals of the skeletal neuromuscular junction. In the present study, we have investigated first, the effects of nanomolar concentrations of gambierol on K+ current of cultured chromaffin cells from fetal rat adrenal medulla using perforated patch-clamp current-recordings. Our results show that gambierol only blocked a small component of the total K+ current, and affected neither calcium‐activated K+ (KCa) nor ATP-sensitive K+ (KATP) channels, as revealed using apamin and iberiotoxin (selective KCa channel blockers) and glibenclamid (KATP channel blocker). After inhibiting KATP and KCa channel activation, the gambierol concentration blocking 50% the K+ current-component (IC50) was 7.6 ± 1.1 nM. The repolarizing phase of all-or-none elicited action potentials, recorded under current-clamp conditions (triggered by 1-ms depolarizing pulses), was sensitive to the action of gambierol but insensitive to the action of apamin and iberiotoxin, indicating that KCa channels do not participate in the modulation of action potential duration triggered by short depolarizing pulses. The use of simultaneous patch-clamp and single-cell amperometry allowed controlling the membrane potential and detecting exocytosis events (with a carbon electrode polarized to +650 mV to allow the oxidation of released catecholamines). Such recordings revealed that gambierol did not modify the membrane potential following 14-second depolarizing current-steps, and did not increase significantly the number of exocytotic catecholamine release events with respect to controls. The addition of KCa channel blockers (in the continuous presence of gambierol) enhanced the membrane depolarization by about 15 mV (during the 14-second current step), and at the same time increased significantly the number of exocytotic events related to catecholamine secretion. Such enhanced depolarization induced by the KCa channel blockers probably brings the membrane potential above the activation threshold of high-voltage activated CaV channels triggering both Ca2+ influx and subsequent catecholamine secretion. These results emphasize the diversity of KV channels in chromaffin cells from fetal rat adrenal medulla and highlight the modulatory role played by KCa channels in the control of exocytosis in the absence of splanchnic innervation.
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Dates et versions

hal-04470261 , version 1 (21-02-2024)

Identifiants

  • HAL Id : hal-04470261 , version 1

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Jordi Molgó, Roland Bournaud, Sébastien Schlumberger, Makoto Sasaki, Haruhiko Fuwa, et al.. Gambierol action on K(+) currents and catecholamine release in cultured single chromaffin cells from fetal rat adrenal medulla. RT27 – 27th Meeting of the French Society of Toxinology – Toxins: Mr Hyde or Dr Jekyll?, Dec 2021, Paris (Virtual), France. ⟨hal-04470261⟩
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