Characterization in Inhibitory Effectiveness of Carbamazepine in Voltage-Gated Na+ and Erg-Mediated K+ Currents in a Mouse Neural Crest-Derived (Neuro-2a) Cell Line

Carbamazepine (CBZ, Tegretol (R)) is an anticonvulsant used in the treatment of epilepsy and neuropathic pain; however, several unwanted effects of this drug have been noticed. Therefore, the regulatory actions of CBZ on ionic currents in electrically excitable cells need to be reappraised, although its efficacy in suppressing voltage-gated Na+ current (I-Na) has been disclosed. This study was undertaken to explore the modifications produced by CBZ on ionic currents (e.g., I-Na and erg-mediated K+ current [I-K(erg)]) measured from Neuro-2a (N2a) cells. In these cells, we found that this drug differentially suppressed the peak (transient, I-Na(T)) and sustained (late, I-Na((L))) components of I-Na in a concentration-dependent manner with effective IC50 of 56 and 18 mu M, respectively. The overall current-voltage relationship of I-Na((T)) with or without the addition of CBZ remained unchanged; however, the strength (i.e., Delta area) in the window component of I-Na (I-Na((W))) evoked by the short ascending ramp pulse (V-ramp) was overly lessened in the CBZ presence. Tefluthrin (Tef), a synthetic pyrethroid, known to stimulate I-Na, augmented the strength of the voltage-dependent hysteresis (Hys((V))) of persistent I-Na (I-Na((P))) in response to the isosceles-triangular V-ramp; moreover, further application of CBZ attenuated Tef-mediated accentuation of I-Na((P))'s Hys((V)). With a two-step voltage protocol, the recovery of I-Na(T) inactivation seen in Neuro-2a cells became progressively slowed by adding CBZ; however, the cumulative inhibition of I-Na((T)) evoked by pulse train stimulation was enhanced during exposure to this drug. Neuro-2a-cell exposure to CBZ (100 mu M), the magnitude of erg-mediated K+ current measured throughout the entire voltage-clamp steps applied was mildly inhibited. The docking results regarding the interaction of CBZ and voltage-gate Na+ (Na-V) channel predicted the ability of CBZ to bind to some amino-acid residues in Nay due to the existence of a hydrogen bond or hydrophobic contact. It is conceivable from the current investigations that the I-Na (I-Na(T),I-Na(L),I-Na(W), and I-Na((P))) residing in Neuro-2a cells are susceptible to being suppressed by CBZ, and that its block on I-Na((L)) is larger than that on I-Na(T). Collectively, the magnitude and gating of Nay channels produced by the CBZ presence might have an impact on its anticonvulsant and analgesic effects occurring in vivo.

Automated summary

This study investigated the effects of carbamazepine (CBZ) on ionic currents in Neuro-2a cells, revealing differential suppression of various components of sodium currents (I-Na) by CBZ. The blockage of late sodium current (I-Na(L)) by CBZ was found to be greater than that of transient sodium current (I-Na(T)).