Nalbuphine (NAL) is recognized as a mixer with the κ-opioid receptor agonist and the μ-opioid receptor antagonist. However, whether this drug causes any modifications in neuronal ionic currents is unclear. The effects of NAL on ionic currents in mHippoE-14 hippocampal neurons were investigated. In the whole-cell current recordings, NAL suppressed the peak amplitude of voltage-gated Na+ current (INa ) with an IC50 value of 1.9 μM. It shifted the steady-state inactivation curve of peak INa to the hyperpolarized potential, suggesting that there is the voltage dependence of NAL-mediated inhibition of peak INa . In continued presence of NAL, subsequent application of either dynorphin A1-13 (1 μM) or naloxone (30 μM) failed to modify its suppression of peak INa . Tefluthrin (Tef; 10 μM), a pyrethroid known to activate INa , increased peak INa with slowed current inactivation; however, further application of NAL suppressed Tef-mediated suppression of peak INa followed by an additional slowing of current inactivation. In addition, NAL suppressed the amplitude of M-type K+ current [IK(M) ] with an IC50 value of 5.7 μM, while it slightly suppressed erg-mediated and delayed-rectifier K+ currents. In the inside-out current recordings, NAL failed to modify the activity of large-conductance Ca2+ -activated K+ channels. In differentiated NG108-15 neuronal cells, NAL also suppressed the peak INa , and subsequent addition of Tef reversed NAL-induced suppression of INa . Our study highlights the evidence that in addition to modulate opioid receptors, NAL has the propensity to interfere with ionic currents including INa and IK(M) , thereby influencing the functional activities of central neurons.
Keywords: erg-mediated K+ current; M-type K+ current; delayed-rectifier K+ current; hippocampal neuron; nalbuphine; opioid receptor; voltage-gated Na+ current.
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