Endogenous Monoamine Receptor Activation Is Essential for Enabling Persistent Sodium Currents and Repetitive Firing in Rat Spinal Motoneurons

doi:10.1152/jn.00341.2006

Endogenous Monoamine Receptor Activation Is Essential for Enabling Persistent Sodium Currents and Repetitive Firing in Rat Spinal Motoneurons

P. J. Harvey, X. Li, Y. Li and D. J. Bennett

Centre for Neuroscience, University of Alberta, Edmonton, Alberta, Canada

Submitted 31 March 2006; accepted in final form 31 May 2006

The spinal cord and spinal motoneurons are densely innervatedby terminals of serotonin (5-HT) and norepinephrine (NE) neuronsarising mostly from the brain stem, but also from intrinsicspinal neurons. Even after long-term spinal transection (chronicspinal), significant amounts (10%) of 5-HT and NE (monoamines)remain caudal to the injury. To determine the role of such endogenousmonoamines, we blocked their action with monoamine receptorantagonists and measured changes in the sodium currents andfiring in motoneurons. We focused on persistent sodium currents(Na PIC) and sodium spike properties because they are criticalfor enabling repetitive firing in motoneurons and are facilitatedby monoamines. Intracellular recordings were made from motoneuronsin the sacrocaudal spinal cord of normal and chronic spinalrats (2 mo postsacral transection) with the whole sacrocaudalcord acutely removed and maintained in vitro (cords from normalrats termed acute spinal). Acute and chronic spinal rats hadTTX-sensitive Na PICs that were respectively 0.62 ± 0.76and 1.60 ± 1.04 nA, with mean onset voltages of –63.0± 5.6 and –64.1 ± 5.4 mV, measured withslow voltage ramps. Application of 5-HT_2A, 5-HT_2C, and ${alpha}$ 1-NEreceptor antagonists (ketanserin, RS 102221, and WB 4101, respectively)significantly reduced the Na PICs, and a combined applicationof these three monoamine antagonists completely eliminated theNa PIC, in both acute and chronic spinal rats. Likewise, reductionof presynaptic transmitter release (including 5-HT and NE) withlong-term application of cadmium also eliminated the Na PIC.Associated with the elimination of the Na PIC in monoamine antagonists,the motoneurons lost their ability to fire during slow currentramps. At this point, the spike evoked by antidromic stimulationwas not affected, suggesting that activation of the transientsodium current was not impaired. However, the spike evoked aftera slow ramp depolarization was slightly reduced in height andrate-of-rise, suggesting decreased sodium channel availabilityas a result of increased channel inactivation. These resultssuggest that endogenous monoamine receptor activation is criticalfor enabling the Na PIC and decreasing sodium channel inactivation,ultimately enabling steady repetitive firing in both normaland chronic spinal rats.

Address for reprint requests and other correspondence: D. J. Bennett, 513 HMRC, University of Alberta, Edmonton, AB, T6G 2S2, Canada (E-mail: bennettd{at}ualberta.ca)

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				D. C. Button, J. M. Kalmar, K. Gardiner, T. Marqueste, H. Zhong, R. R. Roy, V. R. Edgerton, and P. F. Gardiner Does elimination of afferent input modify the changes in rat motoneurone properties that occur following chronic spinal cord transection? J. Physiol., January 15, 2008; 586(2): 529 - 544. [Abstract] [Full Text] [PDF]

				M. Manuel, C. Meunier, M. Donnet, and D. Zytnicki Resonant or Not, Two Amplification Modes of Proprioceptive Inputs by Persistent Inward Currents in Spinal Motoneurons J. Neurosci., November 21, 2007; 27(47): 12977 - 12988. [Abstract] [Full Text] [PDF]

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