Nicotine Inhibits Voltage-Dependent Sodium Channels and Sensitizes Vanilloid Receptors

doi:10.1152/jn.00922.2003

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Nicotine Inhibits Voltage-Dependent Sodium Channels and Sensitizes Vanilloid Receptors

L. Liu¹, W. Zhu², Z.-S. Zhang³, T. Yang⁴, A. Grant³, G. Oxford² and S. A. Simon¹^,4

¹ Department of Anesthesiology, Duke University, Durham 27710 ³ Department of Medicine, Duke University, Durham 27710 ⁴ Department of Neurobiology, Duke University, Durham 27710 ² Department of Cell and Molecular Physiology, University of North Carolina, Chapel Hill, North Carolina 27599

Submitted 22 September 2003; accepted in final form 23 November 2003

Nicotine is an alkaloid that is used by large numbers of people.When taken into the body, it produces a myriad of physiologicalactions that occur primarily through the activation of neuronalnicotinic acetylcholine receptors (nAChRs). We have exploredits ability to modulate TRPV1 receptors and voltage-gated sodiumchannels. The reason for investigating nicotine's effect onsodium channels is to obtain a better understanding of its anti-nociceptiveproperties. The reasons for investigating its effects on capsaicin-activatedTRPV1 channels are to understand how it may modulate this channelthat is involved in pain, inflammation, and gustatory physiology.Whole cell patch-clamp recordings from rat trigeminal ganglion(TG) nociceptors revealed that nicotine exhibited anestheticproperties by decreasing the number of evoked action potentialsand by inhibiting tetrodotoxin-resistant sodium currents. Thisanesthetic property can be produced without the necessity ofactivating nAChRs. Nicotine also modulates TRPV1 receptors inducinga several-fold increase in capsaicin-activated currents in bothTG neurons and in cells with heterologously expressed TRPV1receptors. This sensitizing effect does not require the activationof nAChRs. Nicotine did not alter the threshold temperature( $~$ 41°C) of heat-activated currents in TG neurons that wereattributed to arise from the activation of TRPV1 receptors.In this regard, its effect on TRPV1 receptors differs from thoseof ethanol that has been shown to increase the capsaicin-activatedcurrent but decrease the threshold temperature. These studiesdocument several new effects of nicotine on channels involvedin nociception and indicate how they may impact physiologicalprocesses involving pain and gustation.

Address for reprint requests and other correspondence: S. A. Simon, Dept. of Neurobiology, Duke University Medical Center, Durham, NC 27710 (E-mail: sas{at}neuro.duke.edu).

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