TY - JOUR
T1 - Dual effects of ether on end‐plate currents.
AU - Gage, P. W.
AU - Hamill, O. P.
AU - Van Helden, D.
PY - 1979/2/1
Y1 - 1979/2/1
N2 - 1. The effects of diethyl ether (ether) on miniature end‐plate currents (m.e.p.c.s) and on acetylcholine‐activated end‐plate channels were measured in toad sartorius muscle fibres with voltage‐clamp and extracellular recording techniques. 2. At low concentrations (less than 20 mM) either made m.e.p.c.s decay faster than normal. At high concentrations (greaster than 40 mM), the decay of m.e.p.c.s was slower than normal. With all concentrations, the cecay remained exponential with single time constant, tau D. 3. At low concentrations ether did not affect the growth phase of m.e.p.c.s and only slightly reduced the amplitude of m.e.p.c.s. At the higher concentrations, the growth phase was slowed and m.e.p.c.s were significantly reduced in amplitude. 4. Ether at all concentrations (5‐‐70 mM) reduced end‐plate channel lifetime, the effect increasing with ether concentration. Ether did not significantly alter the elementary channel conductance or the actylcholine null (reversal) potential. 5. Curare reduced tau D which had been prolonged by high concentrations of ether. Ether itself at high concentrations caused a reduction in tau D increased by neostigmine. It is proposed that high concentrations of either inhibit acetylcholine hydrolysis by acetylcholinesterase. 6. The effect of ether in reducing end‐plate channel lifetime and reducing m.e.p.c. amplitude, without significantly altering the normal voltage and temperature sensitivity of channel lifetime, is consistent with the proposal that either reduces the stability of open end‐plate channels.
AB - 1. The effects of diethyl ether (ether) on miniature end‐plate currents (m.e.p.c.s) and on acetylcholine‐activated end‐plate channels were measured in toad sartorius muscle fibres with voltage‐clamp and extracellular recording techniques. 2. At low concentrations (less than 20 mM) either made m.e.p.c.s decay faster than normal. At high concentrations (greaster than 40 mM), the decay of m.e.p.c.s was slower than normal. With all concentrations, the cecay remained exponential with single time constant, tau D. 3. At low concentrations ether did not affect the growth phase of m.e.p.c.s and only slightly reduced the amplitude of m.e.p.c.s. At the higher concentrations, the growth phase was slowed and m.e.p.c.s were significantly reduced in amplitude. 4. Ether at all concentrations (5‐‐70 mM) reduced end‐plate channel lifetime, the effect increasing with ether concentration. Ether did not significantly alter the elementary channel conductance or the actylcholine null (reversal) potential. 5. Curare reduced tau D which had been prolonged by high concentrations of ether. Ether itself at high concentrations caused a reduction in tau D increased by neostigmine. It is proposed that high concentrations of either inhibit acetylcholine hydrolysis by acetylcholinesterase. 6. The effect of ether in reducing end‐plate channel lifetime and reducing m.e.p.c. amplitude, without significantly altering the normal voltage and temperature sensitivity of channel lifetime, is consistent with the proposal that either reduces the stability of open end‐plate channels.
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U2 - 10.1113/jphysiol.1979.sp012664
DO - 10.1113/jphysiol.1979.sp012664
M3 - Article
C2 - 107308
AN - SCOPUS:0018332956
SN - 0022-3751
VL - 287
SP - 353
EP - 369
JO - The Journal of Physiology
JF - The Journal of Physiology
IS - 1
ER -