Potassium currents in rat prevertebral and paravertebral sympathetic neurones: control of firing properties.

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Potassium currents in rat prevertebral and paravertebral sympathetic neurones: control of firing properties.

H S Wang and D McKinnon

Department of Neurobiology and Behavior, State University of New York at Stony Brook 11794-5230, USA.

1. Intracellular recordings were made from rat sympathetic neuronesin isolated superior cervical ganglia (SCG), coeliac ganglia(CG) and superior mesenteric ganglia (SMG). 2. Based on theirresponse to a maintained depolarizing current stimulus, neuroneswere classified as 'phasic' or 'tonic'. All neurones in theSCG were phasic, 85% of the neurones in the SMG and 58% of theneurones in the CG were tonic, and the remainder were phasic.3. The voltage response of phasic and tonic neurones aroundthreshold to a constant current step was markedly different.The response of phasic neurones was biphasic with an initialdepolarizing response followed by significant repolarizationof the membrane potential. In contrast, tonic neurones becamemore depolarized during a prolonged current step. 4. The underlyingcurrents were studied using single-electrode voltage-clamp recording.The M-current was present in all phasic neurones, but was veryweak or absent in tonic neurones. 5. An A-current was apparentin both phasic and tonic neurones. The voltage-dependent activation,steady- state inactivation, and current density of the A-currentwere all similar in phasic and tonic cells. 6. A low- threshold,slowly inactivating outward current (D2-current) was observedexclusively in tonic neurones. The slow inactivation of thiscurrent appeared to underlie the slow depolarizing ramp seenin response to a maintained depolarizing current step. 7. Computersimulations, based on the voltage-clamp data, suggested thatthe different firing properties of phasic and tonic neuronescould be accounted for by differential expression of the M-current.

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				P. J. Davies, D. R. Ireland, J. Martinez-Pinna, and E. M. McLachlan Electrophysiological Roles of L-Type Channels in Different Classes of Guinea Pig Sympathetic Neuron J Neurophysiol, August 1, 1999; 82(2): 818 - 828. [Abstract] [Full Text] [PDF]

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