RT Journal Article
SR Electronic
T1 Identification of the Single Channels that Underlie the N-Type and L-Type Calcium Currents in Bullfrog Sympathetic Neurons
JF The Journal of Neuroscience
JO J. Neurosci.
FD Society for Neuroscience
SP 2658
OP 2668
DO 10.1523/JNEUROSCI.17-08-02658.1997
VO 17
IS 8
A1 Keith S. Elmslie
YR 1997
UL http://www.jneurosci.org/content/17/8/2658.abstract
AB Most of the whole-cell calcium current of frog sympathetic neurons is an N-type current, blocked by ω-conotoxin GVIA (ωCGVIA). Thus, these cells should be an excellent system to study the properties of single N-type channels. However, a channel that is active near −10 mV in isotonic Ba2+, originally identified as “N-type,” corresponds more closely to a ωCGVIA-resistant component of the whole-cell current observed in 100 mm Ba2+. That conclusion would imply that the true single-channel correlate of the macroscopic N-current remains to be identified in frog sympathetic neurons. I report here recordings from cell-attached patches of a calcium channel that activates in the appropriate voltage range (>0 mV, in isotonic Ba2+) and is blocked by ωCGVIA. This channel has a slope conductance of 20 pS (range, 17–25 pS) and a single-channel current of −1.3 pA at 0 mV. Other channels active in the same voltage range (24 pS, −1.3 pA at 0 mV) were identified as L-type channels because they exhibited long openings after repolarization in the presence of 1 μm Bay K 8644 and were resistant to ωCGVIA. A third channel type (13–19 pS) was distinguished by current amplitude (−0.6 pA at 0 mV) and strong inactivation at −40 mV. The similarity in slope conductance among these channels demonstrates that distinguishing them requires the consideration of additional properties. The ωCGVIA-sensitive channel can be identified as an N-type calcium channel.