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- Title
Noninactivating, tetrodotoxin-sensitive Na<sup>+</sup> conductance in peripheral axons.
- Authors
Hajime A. Tokuno; Jeffery D. Kocsis; Stephen G. Waxman
- Abstract
A noninactivating, persistent sodium current has been demonstrated previously in dorsal root ganglia neurons and in rat optic nerve. We report here that Na+ channel blockade with tetrodotoxin (TTX) in isolated dorsal and ventral roots elicits membrane hyperpolarization, suggesting the presence of a persistent Na+ current in peripheral axons. We used a modified sucrose-gap chamber to monitor resting and action potentials and observed a hyperpolarizing shift in the nerve potential of rat dorsal and ventral roots by TTX. The block of transient inward Na+ currents was confirmed by the abolition of compound action potentials (CAPs). Moreover, depolarization of nerve roots by elevating extracellular K+ concentrations to 40 mM eliminated CAPs but did not significantly alter TTX-induced hyperpolarizations, indicating that the persistent Na+ currents in nerve roots are not voltage-dependent. Tetrodotoxin-sensitive persistent inward Na+ currents are present in both dorsal and ventral root axons at rest and may contribute to axonal excitability. Muscle Nerve 28: 212217, 2003
- Subjects
SODIUM; NEURONS; NERVOUS system; CELLS; AXONS
- Publication
Muscle & Nerve, 2003, Vol 28, Issue 2, p212
- ISSN
0148-639X
- Publication type
Article
- DOI
10.1002/mus.10421