Functional Triads Consisting of Ryanodine Receptors Ca2+ Channels and Ca2+-Activated K+ Channels in Bullfrog Sympathetic Neurons

摘要

Fluorescent ryanodine revealed the distribution of ryanodine receptors in the submembrane cytoplasm (less than a few micrometers) of cultured bullfrog sympathetic ganglion cells. Rises in cytosolic Ca²⁺ ([Ca²⁺]i) elicited by single or repetitive action potentials (APs) propagated at a high speed (150 μm/s) in constant amplitude and rate of rise in the cytoplasm bearing ryanodine receptors, and then in the slower, waning manner in the deeper region. Ryanodine (10 μM), a ryanodine receptor blocker (and/or a half opener), or thapsigargin (1–2 μM), a Ca²⁺-pump blocker, or ω-conotoxin GVIA (ω-CgTx, 1 μM), a N-type Ca²⁺ channel blocker, blocked the fast propagation, but did not affect the slower spread. Ca²⁺ entry thus triggered the regenerative activation of Ca²⁺-induced Ca²⁺ release (CICR) in the submembrane region, followed by buffered Ca²⁺ diffusion in the deeper cytoplasm. Computer simulation assuming Ca²⁺ release in the submembrane region reproduced the Ca²⁺ dynamics. Ryanodine or thapsigargin decreased the rate of spike repolarization of an AP to 80%, but not in the presence of iberiotoxin (IbTx, 100 nM), a BK-type Ca²⁺-activated K⁺ channel blocker, or ω-CgTx, both of which decreased the rate to 50%. The spike repolarization rate and the amplitude of a single AP-induced rise in [Ca²⁺]i gradually decreased to a plateau during repetition of APs at 50 Hz, but reduced less in the presence of ryanodine or thapsigargin. The amplitude of each of the [Ca²⁺]i rise correlated well with the reduction in the IbTx-sensitive component of spike repolarization. The apamin-sensitive SK-type Ca²⁺-activated K⁺ current, underlying the afterhyperpolarization of APs, increased during repetitive APs, decayed faster than the accompanying rise in [Ca²⁺]i, and was suppressed by CICR blockers. Thus, ryanodine receptors form a functional triad with N-type Ca²⁺ channels and BK channels, and a loose coupling with SK channels in bullfrog sympathetic neurons, plastically modulating AP.