Modulation of Oligosynaptic Cutaneous and Muscle Afferent Reflex Pathways During Fictive Locomotion and Scratching in the Cat

A. M. Degtyarenko , E. S. Simon , T. Norden-Krichmar , and R. E. Burke Laboratory of Neural Control, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892 Degtyarenko, A. M., E. S. Simon, T. Norden-Krichmar, and R. E. Burke. Modulation of ol...

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Published in:Journal of neurophysiology 1998-01, Vol.79 (1), p.447-463
Main Authors: Degtyarenko, A. M, Simon, E. S, Norden-Krichmar, T, Burke, R. E
Format: Article
Language:English
Subjects:
Afferent Pathways - physiology
Animals
Cats
Decerebrate State
Electric Stimulation
Excitatory Postsynaptic Potentials
Female
Locomotion - physiology
Membrane Potentials
Models, Neurological
Motor Activity - physiology
Motor Neurons - physiology
Muscle, Skeletal - innervation
Peripheral Nerves - physiology
Peroneal Nerve - physiology
Physical Stimulation
Reaction Time
Reflex - physiology
Skin - innervation
Spinal Cord - physiology
Synapses - physiology
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Summary:A. M. Degtyarenko , E. S. Simon , T. Norden-Krichmar , and R. E. Burke Laboratory of Neural Control, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892 Degtyarenko, A. M., E. S. Simon, T. Norden-Krichmar, and R. E. Burke. Modulation of oligosynaptic cutaneous and muscle afferent reflex pathways during fictive locomotion and scratching in the cat. J. Neurophysiol. 79: 447-463, 1998. We have compared state-dependent transmission through oligosynaptic (minimally disynaptic) reflex pathways from low-threshold cutaneous and muscle afferents to some flexor and extensor lumbosacral motoneurons during fictive locomotion and scratching in decerebrate unanesthetized cats. As reported in earlier work, oligosynaptic cutaneous excitatory postsynaptic potentials (EPSPs) in flexor digitorum longus (FDL) and inhibitory postsynaptic potentials (IPSPs) in extensor digitorum (EDL) longus motoneurons were enhanced markedly during the early flexion phase of fictive locomotion. We show in this paper that, in contrast, these cutaneous reflex pathways were depressed markedly during all phases of fictive scratching. On the other hand, disynaptic EPSPs produced by homonymous and synergist group I muscle afferents in flexor (tibialis anterior and EDL) motoneurons were present and strongly modulated during both fictive locomotion and scratching. During both actions, these disynaptic group I EPSPs appeared or exhibited the largest amplitude when the motoneuron membrane potential was most depolarized and the parent motor pool was active. There was an interesting exception to the simple pattern of coincident group I EPSP enhancement and motoneuron depolarization. During locomotion, disynaptic group I EPSPs in both FDL and flexor hallucis longus (FHL) motoneurons cells were facilitated during the extension phase, although FDL motoneurons were relatively hyperpolarized whereas FHL cells were depolarized. The reverse situation was found during fictive scratching; group I EPSPs were facilitated in both FDL and FHL cells during the flexion phase when FDL motoneurons were depolarized and FHL cells were relatively hyperpolarized. These observations suggest that the disynaptic EPSPs in these two motor nuclei are produced by common interneurons. Reciprocal disynaptic inhibitory pathways from group Ia muscle afferents to antagonist motoneurons were also active and subject to phase-dependent modulation during both fictive locomotion and
ISSN:0022-3077
1522-1598
DOI:10.1152/jn.1998.79.1.447