Differential modulation of disynaptic cutaneous inhibition and excitation in ankle flexor motoneurons during fictive locomotion

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Differential modulation of disynaptic cutaneous inhibition and excitation in ankle flexor motoneurons during fictive locomotion

A. M. Degtyarenko, E. S. Simon and R. E. Burke
Laboratory of Neural Control, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892-4455, USA.

1. Intracellular recording from extensor digitorum longus (EDL) and tibialis anterior (TA) alpha-motoneurons during fictive locomotion was used to examine patterns of modulation of oligosynaptic postsynaptic potentials (PSPs) produced by electrical stimulation of the cutaneous superficial peroneal (SP) and medial plantar (MPL) nerves in unanesthetized, decerebrate adult cats. 2. In all 20 EDL motoneurons studied, electrical stimulation of the SP nerve with single pulses at about twice threshold for the most excitable fibers in the nerve (2xT) produced either no synaptic potentials or relatively small oligosynaptic excitatory or inhibitory PSPs (EPSPs or IPSPs), both at rest and during the extension phase of fictive stepping. However, at the onset of the flexion phase large, presumably disynaptic IPSPs (central latencies 1.7-2.0 ms) appeared in the SP responses. These IPSPs usually decreased in amplitude later in the flexion phase despite maintained membrane depolarization. 3. In most (7/8) TA motoneurons, SP stimulation produced oligosynaptic EPSPs at rest and during the extension phase of fictive stepping. These EPSPs were suppressed during flexion in a majority of TA cells studied (5/8) but no clearly disynaptic IPSPs were found in any TA motoneuron. 4. In most EDL and TA motoneurons, stimulation of the MPL nerve produced oligosynaptic EPSPs at rest and during the extension phase, most with latencies in the presumably disynaptic range (< or = 2.0 ms). When present, these MPL EPSPs were suppressed throughout the flexion phase of stepping in almost all EDL (18/ 20) and TA (6/8) motoneurons examined. 5. The available evidence suggests that these modulation effects during fictive stepping are due primarily to convergence of control information from the spinal central pattern generator (CPG) for locomotion onto segmental interneurons in the oligosynaptic cutaneous pathways. 6. These observations extend the evidence for precise differential control of transmission through cutaneous reflex pathways in the cat hindlimb by the locomotor CPG. Taken together with earlier evidence about locomotor modulation of cutaneous PSPs in flexor digitorum longus (FDL) motoneurons, the data suggest that cutaneous information from the dorsal surface of the foot, carried in part by the SP nerve, projects to digit motoneurons (FDL and EDL) through discrete sets of last-order interneurons that also receive powerful excitation from the locomotor CPG during flexion. In contrast, the last-order interneurons that convey excitatory information from the SP nerve to at least some TA motoneurons are inhibited by the CPG during flexion. 7. Another contrast resides in the fact that oligosynaptic cutaneous excitation from the plantar surface of the foot, via the MPL nerve, is suppressed in FDL, EDL, and TA motoneurons during the flexion phase of locomotion. The available information is consistent with the possibility that MPL effects may be delivered to these motor nuclei by common interneurons. 8. We suggest an interneuronal circuitry that could account for these observations and discuss possible functional implications of modulation of these sensory pathways during locomotion.

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				J. Quevedo, K. Stecina, and D. A. McCrea Intracellular Analysis of Reflex Pathways Underlying the Stumbling Corrective Reaction During Fictive Locomotion in the Cat J Neurophysiol, September 1, 2005; 94(3): 2053 - 2062. [Abstract] [Full Text] [PDF]

				M.-P. Cote and J.-P. Gossard Step Training-Dependent Plasticity in Spinal Cutaneous Pathways J. Neurosci., December 15, 2004; 24(50): 11317 - 11327. [Abstract] [Full Text] [PDF]

				L.J.G. Bouyer and S. Rossignol Contribution of Cutaneous Inputs From the Hindpaw to the Control of Locomotion. I. Intact Cats J Neurophysiol, December 1, 2003; 90(6): 3625 - 3639. [Abstract] [Full Text] [PDF]

				M. MacKay-Lyons Central Pattern Generation of Locomotion: A Review of the Evidence Physical Therapy, January 1, 2002; 82(1): 69 - 83. [Abstract] [Full Text] [PDF]

				R. E. Burke, A. M. Degtyarenko, and E. S. Simon Patterns of Locomotor Drive to Motoneurons and Last-Order Interneurons: Clues to the Structure of the CPG J Neurophysiol, July 1, 2001; 86(1): 447 - 462. [Abstract] [Full Text] [PDF]

				L. Guan, T. Kiemel, and A. H. Cohen Impact of movement and movement-related feedback on the lamprey central pattern generator for locomotion J. Exp. Biol., January 7, 2001; 204(13): 2361 - 2370. [Abstract] [Full Text] [PDF]

				J.-F. Perrier, B. L. D'Incamps, N. Kouchtir-Devanne, L. Jami, and D. Zytnicki Cooperation of Muscle and Cutaneous Afferents in the Feedback of Contraction to Peroneal Motoneurons J Neurophysiol, June 1, 2000; 83(6): 3201 - 3208. [Abstract] [Full Text] [PDF]

				S Toda, S Kawahara, and Y Kirino Image analysis of olfactory responses in the procerebrum of the terrestrial slug Limax marginatus J. Exp. Biol., January 10, 2000; 203(19): 2895 - 2905. [Abstract] [PDF]

				A. M. Degtyarenko, E. S. Simon, and R. E. Burke Locomotor Modulation of Disynaptic EPSPs From the Mesencephalic Locomotor Region in Cat Motoneurons J Neurophysiol, December 1, 1998; 80(6): 3284 - 3296. [Abstract] [Full Text] [PDF]

				E. P. Zehr, K. Fujita, and R. B. Stein Reflexes From the Superficial Peroneal Nerve During Walking in Stroke Subjects J Neurophysiol, February 1, 1998; 79(2): 848 - 858. [Abstract] [Full Text] [PDF]

				B. M.�H. Van Wezel, F. A.�M. Ottenhoff, and J. Duysens Dynamic Control of Location-Specific Information in Tactile Cutaneous Reflexes from the Foot during Human Walking J. Neurosci., May 15, 1997; 17(10): 3804 - 3814. [Abstract] [Full Text] [PDF]

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Differential modulation of disynaptic cutaneous inhibition and excitation in ankle flexor motoneurons during fictive locomotion