5-HT2 Receptor Activation Facilitates a Persistent Sodium Current and Repetitive Firing in Spinal Motoneurons of Rats With and Without Chronic Spinal Cord Injury

doi:10.1152/jn.01088.2005

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5-HT₂ Receptor Activation Facilitates a Persistent Sodium Current and Repetitive Firing in Spinal Motoneurons of Rats With and Without Chronic Spinal Cord Injury

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

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

Submitted 17 October 2005; accepted in final form 18 April 2006

We examined the modulation of persistent inward currents (PICs)by serotonin (5-HT) in spinal motoneurons of normal and chronicspinal rats. PICs are composed of both a TTX-sensitive persistentsodium current (Na PIC) and a nimodipine-sensitive persistentcalcium current (Ca PIC), and we focused on quantifying theNa PIC (and its action on the total PIC), which is known tobe critical in enabling repetitive firing. Intracellular recordingswere made from motoneurons of the whole sacrocaudal spinal cordof normal adult rats after the cord was acutely transected atthe S2 spinal level (acute spinal rat condition), removed fromthe animal, and then maintained in vitro. In vitro motoneuronrecordings were likewise made from rats that had a sacral spinaltransection 2 mo previously (chronic spinal rats). In motoneuronsfrom acute spinal rats, moderately high doses of 5-HT ( $≥$ 10 µM),or the 5-HT₂ receptor agonist DOI ( $≥$ 30 µM), significantlyincreased the total PIC, hyperpolarized the PIC onset voltage,and hyperpolarized the spike threshold, whereas lower doseshad no effect. Both 5-HT and DOI specifically increased theNa PIC portion of the total PIC (tested with nimodipine blockingthe Ca PIC). Additionally, 5-HT, but not DOI, depolarized theresting membrane potential (V_m) and increased the input resistance(R_m) in a dose-dependent manner. Therefore 5-HT₂ receptor activationfacilitated the Na PIC, whereas other 5-HT receptors modulatedV_m and R_m. Motoneurons of chronic spinal rats responded to 5-HTand DOI in the same way, but with larger responses and at muchlower doses (0.3–1 µM), thus exhibiting a 30-foldsupersensitivity to 5-HT. Specifically the Na PIC was supersensitiveto 5-HT₂ receptor activation with DOI. Also, R_m and V_m weresupersensitive to 5-HT. Consistent with the known critical roleof the Na PIC in repetitive firing, enhancement of the Na PICby DOI or 5-HT facilitated the repetitive firing evoked by steadycurrent injection and enabled repetitive firing in a subpopulationof motoneurons of acute spinal rats that were initially unableto produce sustained repetitive firing. We suggest that afterspinal transection, residual endogenous spinal sources of 5-HThelp facilitate the Na PIC and repetitive firing. With chronicinjury, the developed 5-HT supersensitivity more than compensatesfor lost brain stem 5-HT, so that the Na PIC is large and motoneuronsare very excitable, thus contributing to spasticity.

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

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				P. K. Rose Persistence has its own reward: repetitive firing of action potentials in neurons J. Physiol., April 15, 2007; 580(2): 357 - 357. [Full Text] [PDF]

				N. P. Cramer, Y. Li, and A. Keller The Whisking Rhythm Generator: A Novel Mammalian Network for the Generation of Movement J Neurophysiol, March 1, 2007; 97(3): 2148 - 2158. [Abstract] [Full Text] [PDF]

				X. Li, K. Murray, P. J. Harvey, E. W. Ballou, and D. J. Bennett Serotonin Facilitates a Persistent Calcium Current in Motoneurons of Rats With and Without Chronic Spinal Cord Injury J Neurophysiol, February 1, 2007; 97(2): 1236 - 1246. [Abstract] [Full Text] [PDF]

				P. J. Harvey, Y. Li, X. Li, and D. J. Bennett Persistent Sodium Currents and Repetitive Firing in Motoneurons of the Sacrocaudal Spinal Cord of Adult Rats J Neurophysiol, September 1, 2006; 96(3): 1141 - 1157. [Abstract] [Full Text] [PDF]

				P. J. Harvey, X. Li, Y. Li, and D. J. Bennett Endogenous Monoamine Receptor Activation Is Essential for Enabling Persistent Sodium Currents and Repetitive Firing in Rat Spinal Motoneurons J Neurophysiol, September 1, 2006; 96(3): 1171 - 1186. [Abstract] [Full Text] [PDF]