Characterization of Outward Currents in Neurons of the Avian Nucleus Magnocellularis

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Characterization of Outward Currents in Neurons of the Avian Nucleus Magnocellularis

Margaret Rathouz and Laurence Trussell

Department of Physiology, University of Wisconsin, Madison, Wisconsin 53706

Rathouz, Margaret and Laurence Trussell. Characterization of outward currents in neurons of the avian nucleus magnocellularis.J. Neurophysiol. 80: 2824-2835, 1998. Neurons of the nucleus magnocellularis(NM) preserve the timing of auditory signals through the convergenceof a variety of voltage- and ligand-gated ion channels. To understandbetter how these channels interact, we have characterized thekinetics, voltage sensitivity, and pharmacology of outward currentsof NM neurons in brain slices. The reversal potential (E_rev) ofoutward currents varied with potassium concentration as expectedfor currents carried by potassium. However, E_rev was consistentlymore positive than the Nernst potential for potassium (E_K). Deviationof E_rev from the calculated E_K most likely arose from potassiumaccumulation in extracellular spaces by potassium conductancesactive at rest and during depolarizing steps. Three outward potassiumcurrents were studied that varied in voltage and pharmacologicalsensitivity. A tetraethylammonium (TEA)-sensitive, high-thresholdcurrent was activated within 1-5 ms of the onset of depolarization,with a half-maximal activation voltage (V_1/2) of $-$ 19 mV. It wasblocked partially by 4-aminopyridine (4-AP) and was the dominantionic conductance of NM neurons. A dendrotoxin-I (DTX) and 4-AP-sensitive,low-threshold current had a V_1/2 of $-$ 58 mV, rapid activation kinetics,and only partial inactivation, with decay time constants between20 and 100 ms. A rapidly inactivating current was observed thatwas resistant to TEA and DTX and was blocked by intracellularCs⁺. The transient current was inactivated almost completely at theresting potential. The onset of inactivation was fastest at potentialsnegative to those that caused activation. When intracellular K⁺ was replaced by Cs⁺, large inward and outward currents were obtained that correspondedrespectively to the above-mentioned DTX- and TEA-sensitive currents.Outward, TEA-sensitive current was carried by Cs⁺, with a P_Cs/P_K of ~0.1. In current-clamped neurons, DTX inducedrepetitive firing and increased membrane time constant near restbut had little effect on action potential duration. These studiesindicate that a low-threshold, DTX-sensitive current plays a keyrole in making NM neurons highly responsive to the onset and offsetof synaptic stimuli.

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				J. S. Rothman and P. B. Manis Differential Expression of Three Distinct Potassium Currents in the Ventral Cochlear Nucleus J Neurophysiol, June 1, 2003; 89(6): 3070 - 3082. [Abstract] [Full Text] [PDF]

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				J. S. Rothman and P. B. Manis The Roles Potassium Currents Play in Regulating the Electrical Activity of Ventral Cochlear Nucleus Neurons J Neurophysiol, June 1, 2003; 89(6): 3097 - 3113. [Abstract] [Full Text] [PDF]

				P. D. Dodson, M. C. Barker, and I. D. Forsythe Two Heteromeric Kv1 Potassium Channels Differentially Regulate Action Potential Firing J. Neurosci., August 15, 2002; 22(16): 6953 - 6961. [Abstract] [Full Text] [PDF]

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