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Halothane and Isoflurane Augment Depolarization-induced Cytosolic CA2+ Transients and Attenuate Carbachol-stimulated CA2+ Transients |
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| Authors: | Xu, Fang Ph.D. Zhang, Jin M.D.&#x Recio-Pinto, Esperanza Ph.D.&#x Blanck, Thomas J. J. M.D., Ph.D. |
| Affiliation: | Xu, Fang Ph.D.*; Zhang, Jin M.D.†; Recio-Pinto, Esperanza Ph.D.‡; Blanck, Thomas J. J. M.D., Ph.D.§ |
| Abstract: | Background: Neuronal excitability is in part determined by Ca2+ availability that is controlled by regulatory mechanisms of cytosolic Ca2+ ([Ca2+]cyt). Alteration of any of those mechanisms by volatile anesthetics (VAs) may lead to a change in presynaptic transmission and postsynaptic excitability. Using a human neuroblastoma cell line, the effects of halothane and isoflurane on cytosolic Ca2+ concentration ([Ca2+]cyt) in response to K+ and carbachol stimulation were investigated. Methods: Volatile anesthetic (0.05-1 mm) action on stimulated [Ca2+]cyt transients were monitored in suspensions of SH-SY5Y cells loaded with fura-2. Potassium chloride (KCl; 100 mm) was used to depolarize and activate Ca2+ entry through voltage-dependent calcium channels; 1 mm carbachol was used to activate muscarinic receptor-mediated inositol triphosphate (IP3)-dependent intracellular Ca2+ release. Sequential stimulations, KCl followed by carbachol and vice versa, were used to investigate interactions between intracellular Ca2+ stores. Results: Halothane and isoflurane in clinically relevant concentrations enhanced the K+-evoked [Ca2+]cyt transient whether intracellular Ca2+ stores were full or partially depleted. In contrast, halothane and isoflurane reduced the carbachol-evoked [Ca2+]cyt transient when the intracellular Ca2+ stores were full but had no effect when the Ca2+ stores were partially depleted by KCl stimulation. |
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