Recurrent Inhibition of Individual Ia Inhibitory Interneurones and Disinhibition of Their Target Alpha-motoneurones During Muscle Stretches

Overview

Journal Exp Brain Res

Specialty Neurology

Date 1975 Jul 11

PMID 1149846

Citations 6

Authors

R Benecke

U BOTTCHER

H D Henatsch

J Meyer-Lohmann

J Schmidt

Affiliations

Soon will be listed here.

Abstract

The effects of ramp stretches applied to triceps surae muscle on the discharge patterns of single Ia inhibitory interneurones, monosynaptically invaded from various nerves, were studied in either decerebrate or anesthetized cats. Interneurones which received direct excitatory Ia input from the stretched muscle exhibited augmented activity both during the dynamic and static phase of stretch, which was, however, interrupted by a transient inhibitory influence during the dynamic phase of stretch. The influences on Ia inhibitory interneurones, monosynaptically invaded from hamstring or tibial nerve, were exclusively inhibitory. These stretch-induced inhibitions were better demonstrable in decerebrate than in anesthetized preparations. The timing of the discharge patterns of additionally recorded Renshaw cells during stretch, and the disappearance or reduction of the above described inhibitory effects after administration of DHE, strongly support the idea that these inhibitory actions are caused by Renshaw inhibition. In Ia inhibitory interneurones, monosynaptically activated from the antagonistic peroneal nerve, stretch induced also pronounced inhibitory effects, which were most probably caused by mutual inhibition between Ia inhibitory interneurones. The suppression of agonistic Ia inhibitory interneurone activity below the tonic resting activity corresponded to an enhancement of the monosynaptic reflex amplitude of the antagonistic motoneurone pool. The findings suggest that normal orthodromic activation of Renshaw cells, and consequently the recurrent inhibition of the Ia inhibitory interneurones, is predominantly linked with rapid phasic, rather than slow tonic, motoneuronal firing. The functional role of this mechanism for the performance of rapidly alternating movements and the damping of ballistic agonist contractions is discussed.

Citing Articles

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Dynamic behaviour of alpha motoneurone sub-pools subjected to inhomogeneous Renshaw cell inhibition.

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Differential effects of stimulation of the cat's red nucleus on lumbar alpha motoneurones and their Renshaw cells.

Henatsch H, Meyer-Lohmann J, Windhorst U, Schmidt J Exp Brain Res. 1986; 62(1):161-74.

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A pharmacological study of Renshaw cell inhibition.

Curtis D, Game C, Lodge D, McCulloch R J Physiol. 1976; 258(1):227-42.

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Tetanus toxin induced actions on spinal Renshaw cells and Ia-inhibitory interneurones during development of local tetanus in the cat.

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