Extracellular K+ Induces Locomotor-Like Patterns in the Rat Spinal Cord In Vitro: Comparison With NMDA or 5-HT Induced Activity

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Extracellular K⁺ Induces Locomotor-Like Patterns in the Rat Spinal Cord In Vitro: Comparison With NMDA or 5-HT Induced Activity

E. Bracci, M. Beato, and A. Nistri

Biophysics Sector and Instituto Nazionale di Fisica della Materia Unit, International School for Advanced Studies (SISSA), 34013 Trieste, Italy

Bracci, E., M. Beato, and A. Nistri. Extracellular K⁺ induces locomotor-like patterns in the rat spinal cord in vitro:comparison with NMDA or 5-HT induced activity. J. Neurophysiol.79: 2643-2652, 1998. Bath-application of increasing concentrationsof extracellular K⁺ elicited alternating motor patterns recorded from pairs of variouslumbar ventral roots of the neonatal rat (0-2 days old) spinalcord in vitro. The threshold concentration of K⁺ for this effect was 7.9 ± 0.8 mM (mean ± SD). The suprathresholdconcentration range useful to evoke persistent motor patterns(lasting $>=$ 10 min) was very narrow (~1 mM) as further incrementselicited only rhythmic activity lasting from 20 s to a few minutes.On average, the fastest period of rhythmic patterns was 1.1 ±0.3 s. Intracellular recording from lumbar motoneurons showedthat raised extracellular K⁺ elicited membrane potential oscillations with superimposed repetitivefiring. In the presence of N-methyl-D-aspartate (NMDA) or non-NMDAreceptor blockers [R( $-$ )-2-amino-phosphonovaleric acid or 6-cyano-7-nitroquinoxaline-2,3-dione,respectively] extracellular K⁺ increases could still induce motor patterns although the thresholdconcentration was raised. Serotonin (5-HT) also induced alternatingmotor patterns (threshold 15 ± 7 µM) that were consistently slowerthan those induced by high K⁺ or NMDA. Ritanserin (1 µM) prevented the locomotor-like activityof 5-HT but not that of high K⁺ provided the concentration of the latter was further increased.Subthreshold concentrations of K⁺ became effective in the presence of subthreshold doses of 5-HTor NMDA, indicating mutual facilitation between these substances.The fastest pattern frequency was observed by raising K⁺ or by adding NMDA. In the presence of 5-HT, the pattern frequencywas never as fast even if NMDA (or high K⁺) was coapplied. Furthermore, application of 5-HT significantlyslowed down the K⁺- or NMDA-induced rhythm, an effect strongly potentiated in thepresence of ritanserin. It is suggested that the operation ofthe spinal locomotor network was activated by rises in extracellularK⁺, which presumably led to a broad increase in neuronal excitability.Whenever the efficiency of excitatory synaptic transmission wasdiminished (for example by glutamate receptor antagonism), a largerconcentration of K⁺ was required to evoke locomotor-like patterns. The complex effect(comprising stimulation and inhibition) of 5-HT on alternatingpattern generation appeared to result from a dual action of thissubstance on the spinal locomotor network.

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				C. Marchetti and A. Nistri Neuronal Bursting Induced by NK3 Receptor Activation in the Neonatal Rat Spinal Cord In Vitro J Neurophysiol, December 1, 2001; 86(6): 2939 - 2950. [Abstract] [Full Text] [PDF]

				E. W. Keefer, A. Gramowski, and G. W. Gross NMDA Receptor-Dependent Periodic Oscillations in Cultured Spinal Cord Networks J Neurophysiol, December 1, 2001; 86(6): 3030 - 3042. [Abstract] [Full Text] [PDF]

				M. Beato and A. Nistri Interaction Between Disinhibited Bursting and Fictive Locomotor Patterns in the Rat Isolated Spinal Cord J Neurophysiol, November 1, 1999; 82(5): 2029 - 2038. [Abstract] [Full Text] [PDF]