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  • Title: Block of inactivation-deficient Na+ channels by local anesthetics in stably transfected mammalian cells: evidence for drug binding along the activation pathway.
    Author: Wang SY, Mitchell J, Moczydlowski E, Wang GK.
    Journal: J Gen Physiol; 2004 Dec; 124(6):691-701. PubMed ID: 15545401.
    Abstract:
    According to the classic modulated receptor hypothesis, local anesthetics (LAs) such as benzocaine and lidocaine bind preferentially to fast-inactivated Na(+) channels with higher affinities. However, an alternative view suggests that activation of Na(+) channels plays a crucial role in promoting high-affinity LA binding and that fast inactivation per se is not a prerequisite for LA preferential binding. We investigated the role of activation in LA action in inactivation-deficient rat muscle Na(+) channels (rNav1.4-L435W/L437C/A438W) expressed in stably transfected Hek293 cells. The 50% inhibitory concentrations (IC(50)) for the open-channel block at +30 mV by lidocaine and benzocaine were 20.9 +/- 3.3 microM (n = 5) and 81.7 +/- 10.6 microM (n = 5), respectively; both were comparable to inactivated-channel affinities. In comparison, IC(50) values for resting-channel block at -140 mV were >12-fold higher than those for open-channel block. With 300 microM benzocaine, rapid time-dependent block (tau approximately 0.8 ms) of inactivation-deficient Na(+) currents occurred at +30 mV, but such a rapid time-dependent block was not evident at -30 mV. The peak current at -30 mV, however, was reduced more severely than that at +30 mV. This phenomenon suggested that the LA block of intermediate closed states took place notably when channel activation was slow. Such closed-channel block also readily accounted for the LA-induced hyperpolarizing shift in the conventional steady-state inactivation measurement. Our data together illustrate that the Na(+) channel activation pathway, including most, if not all, transient intermediate closed states and the final open state, promotes high-affinity LA binding.
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