TY - JOUR
T1 - The effect of local anaesthetics on the components of the asymmetry current in the squid giant axon.
AU - Bekkers, J. M.
AU - Greeff, N. G.
AU - Keynes, R. D.
AU - Neumcke, B.
PY - 1984/7/1
Y1 - 1984/7/1
N2 - The effects of local anaesthetics and holding potential on sodium and asymmetry currents were studied in intracellularly dialysed squid giant axons. The asymmetry currents were fractionated into their inactivating and non‐inactivating components, and the charge displacements Qi and Qn of the two components were determined for pulse potentials between ‐20 and +40 mV. The charged local anaesthetic RAD 366, a quaternary derivative of lidocaine, applied internally at a concentration in the dialysis solution of 1 mM, did not change Qn, but reduced Qi about 3‐fold. The neutral local anaesthetic benzocaine, applied externally at a concentration in the bathing solution of 1 mM, had effects very similar to RAD 366. It did not change Qn, but reduced Qi and the sodium current about 2 . 5‐fold. Unlike local anaesthetics, steady membrane depolarization had essentially equal effects on Qn, Qi and sodium current. Lowering the holding potential from ‐98 to ‐60 mV for several minutes reduced all three variables to about half. Models of sodium channel voltage‐gating are discussed which implicate both Qn and Qi, and which account for the selective blockage of Qi by sodium inactivation and local anaesthetics.
AB - The effects of local anaesthetics and holding potential on sodium and asymmetry currents were studied in intracellularly dialysed squid giant axons. The asymmetry currents were fractionated into their inactivating and non‐inactivating components, and the charge displacements Qi and Qn of the two components were determined for pulse potentials between ‐20 and +40 mV. The charged local anaesthetic RAD 366, a quaternary derivative of lidocaine, applied internally at a concentration in the dialysis solution of 1 mM, did not change Qn, but reduced Qi about 3‐fold. The neutral local anaesthetic benzocaine, applied externally at a concentration in the bathing solution of 1 mM, had effects very similar to RAD 366. It did not change Qn, but reduced Qi and the sodium current about 2 . 5‐fold. Unlike local anaesthetics, steady membrane depolarization had essentially equal effects on Qn, Qi and sodium current. Lowering the holding potential from ‐98 to ‐60 mV for several minutes reduced all three variables to about half. Models of sodium channel voltage‐gating are discussed which implicate both Qn and Qi, and which account for the selective blockage of Qi by sodium inactivation and local anaesthetics.
UR - http://www.scopus.com/inward/record.url?scp=0021287108&partnerID=8YFLogxK
U2 - 10.1113/jphysiol.1984.sp015315
DO - 10.1113/jphysiol.1984.sp015315
M3 - Article
C2 - 6086917
AN - SCOPUS:0021287108
SN - 0022-3751
VL - 352
SP - 653
EP - 668
JO - The Journal of Physiology
JF - The Journal of Physiology
IS - 1
ER -