Persistent Sodium and Calcium Currents Cause Plateau Potentials in Motoneurons of Chronic Spinal Rats

doi:10.1152/jn.00236.2003

Persistent Sodium and Calcium Currents Cause Plateau Potentials in Motoneurons of Chronic Spinal Rats

Yunru Li and David J. Bennett

Centre for Neuroscience, University of Alberta, Edmonton, Alberta T6G 2S2, Canada

Submitted 11 March 2003; accepted in final form 21 April 2003

After chronic spinal cord injury motoneurons exhibit large plateau potentials (sustained depolarizations triggered by brief inputs)that play a primary role in the development of muscle spasmsand spasticity (Bennett et al. 2001a,b). The present studyexamined the voltage-gated persistent inward currents (PICs) underlying these plateaus. Adult rats were spinalized at theS₂ sacral spinal level and after 2 mo, when spasticity developed,intracellular recordings were made from motoneurons below theinjury. For recording, the whole sacrocaudal spinal cord wasremoved and maintained in vitro in normal artificial cerebralspinal fluid (nACSF), without application of neuromodulators.During a slow triangular voltage-clamp command (ramp) a PIC was activated with a threshold of –54.2 ± 4.8 mV(similar to plateau threshold), with a peak current of 2.88± 0.95 nA and produced a pronounced negative-slope regionin the V–I relation. This PIC was in part mediated byCav1.3 L-type calcium channels because it was low thresholdand significantly reduced by 10 to 20 µM nimodipine or400 µM Cd²⁺. The PIC that remained during a calcium channel blockade (in Cd²⁺) was completely and rapidly blocked by tetrodotoxin(TTX; 0.5 to 2 µM), and thus was a TTX-sensitive persistent sodium current. This persistent sodium current was activatedrapidly about 7 mV below the spike threshold (spike threshold–46.1 ± 4.5 mV), contributed approximately 1/2of the initial peak of the total PIC, inactivated partly tocontribute only approximately 1/3 of the sustained PIC (at5 to 10 s), and deactivated rapidly with hyperpolarization (<50ms). When TTX was added to the bath first, the nimodipine-sensitivepersistent calcium current (L-type) was seen in isolation;it was slowly activated (>250 ms), had a low but variablethreshold (either slightly above or below the spike threshold),contributed the other approximately 1/2 of the initial peakof the total PIC (before TTX), did not usually inactivate withtime (contributed approximately two-thirds of the sustainedPIC), and deactivated slowly with hyperpolarization to rest(in >300 ms). In summary, low-threshold persistent calcium(Cav1.3) and sodium currents spontaneously develop in motoneuronsof chronic spinal rats and these enable large, rapidly activatedplateaus that ultimately lead to spasticity.

Address for reprint requests: D. Bennett, Centre for Neuroscience, 513 Heritage Medical Research Centre, University of Alberta, Edmonton, Alberta T6G 2S2, Canada (E-mail: bennettd{at}ualberta.ca).

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				T. V. Bui, G. Grande, and P. K. Rose Multiple Modes of Amplification of Synaptic Inhibition to Motoneurons by Persistent Inward Currents J Neurophysiol, February 1, 2008; 99(2): 571 - 582. [Abstract] [Full Text] [PDF]

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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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