Experimental and Modeling Study of Na+ Current Heterogeneity in Rat Nodose Neurons and Its Impact on Neuronal Discharge

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Experimental and Modeling Study of Na⁺ Current Heterogeneity in Rat Nodose Neurons and Its Impact on Neuronal Discharge

J. H. Schild¹ and D. L. Kunze²

¹ Department of Physiology and Pharmacology, Oregon Health Sciences University, Portland, Oregon 97201; and² Rammelkamp Research Center, MetroHealth Medical Center, Cleveland, Ohio 44109

Schild, J. H. and D. L. Kunze. Experimental and modeling study of Na⁺ current heterogeneity in rat nodose neurons and its impact onneuronal discharge. J. Neurophysiol. 78: 3198-3209, 1997. Thispaper is a combined experimental and modeling study of two fundamentalquestions surrounding the functional characteristics of Na⁺ currents in nodose sensory neurons. First, when distinctly differentclasses of Na⁺ currents are expressed in the same neuron, is there a significantdifference in the intrinsic biological variability associatedwith the voltage- and time-dependent properties of these currents?Second, in what manner can such variability in functional propertiesimpact the discharge characteristics of these neurons? Here, werecorded the whole cell Na⁺ currents in acutely dissociated rat nodose sensory neurons usingthe patch-clamp technique. Two general populations of neuronswere observed. A-type neurons (n = 20) expressed a single rapidlyinactivating tetrodotoxin-sensitive (TTX-S) Na⁺ current. C-type neurons (n = 87) coexpressed this TTX-S currentalong with a slowly inactivating TTX-resistant (TTX-R) Na⁺ current. The TTX-S currents in both cell types had submillisecondrates of activation at room temperature with thresholds near $-$ 50mV. The TTX-R current exhibited about the same rates of activationbut required potentials 20-30 mV more depolarized to reach threshold.Over the same clamp voltages the rates of inactivation for theTTX-R current were three to nine times slower than those for theTTX-S current. However, the TTX-R current recovered from completeinactivation at a rate 10-20 times faster than the TTX-S current(10 ms as compared with 100-200 ms). Across the population ofneurons studied the TTX-S data formed a relatively tight statisticaldistribution, exhibiting low standard deviations across all measuredvoltage- and time-dependent properties. In contrast, the samepooled measurements on the TTX-R data exhibited standard deviationsthat were 3-10 times larger. The statistical profiles of the voltage-and time-dependent properties of these currents then were usedas a physiological guide to adjust the relevant parameters ofa mathematical model of nodose sensory neurons previously developedby our group (). Here, we show how the relativeexpression of TTX-S and TTX-R Na⁺ currents and the differences in their apparent biological variabilitycan shape the regenerative discharge characteristics and actionpotential waveshapes of sensory neurons. We propose that the spectrumof variability robust reactivation characteristics of the TTX-Rcurrent are important determinants in establishing the heterogeneousstimulus-response characteristics often observed across the generalpopulation of C-type sensory neurons.

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				A. A. Sleeper, T. R. Cummins, S. D. Dib-Hajj, W. Hormuzdiar, L. Tyrrell, S. G. Waxman, and J. A. Black Changes in Expression of Two Tetrodotoxin-Resistant Sodium Channels and Their Currents in Dorsal Root Ganglion Neurons after Sciatic Nerve Injury But Not Rhizotomy J. Neurosci., October 1, 2000; 20(19): 7279 - 7289. [Abstract] [Full Text] [PDF]

				M. Renganathan, T. R. Cummins, W. N. Hormuzdiar, J. A. Black, and S. G. Waxman Nitric Oxide Is an Autocrine Regulator of Na+ Currents in Axotomized C-Type DRG Neurons J Neurophysiol, April 1, 2000; 83(4): 2431 - 2442. [Abstract] [Full Text] [PDF]

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				M. S. Gold Tetrodotoxin-resistant Na+ currents and inflammatory hyperalgesia PNAS, July 6, 1999; 96(14): 7645 - 7649. [Abstract] [Full Text] [PDF]

				W. Fan and M. C. Andresen Differential frequency-dependent reflex integration of myelinated and nonmyelinated rat aortic baroreceptors Am J Physiol Heart Circ Physiol, August 1, 1998; 275(2): H632 - H640. [Abstract] [Full Text] [PDF]

				S. D. Dib-Hajj, L. Tyrrell, J. A. Black, and S. G. Waxman NaN, a novel voltage-gated Na channel, is expressed preferentially in peripheral sensory neurons and down-regulated after axotomy PNAS, July 21, 1998; 95(15): 8963 - 8968. [Abstract] [Full Text] [PDF]