Adjustable Amplification of Synaptic Input in the Dendrites of Spinal Motoneurons In Vivo

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The Journal of Neuroscience, September 1, 2000, 20(17):6734-6740

Adjustable Amplification of Synaptic Input in the Dendrites of Spinal Motoneurons In Vivo
Robert H. Lee and C. J. Heckman
Departments of Physiology and Physical Medicine and Rehabilitation, Northwestern University Medical School, Chicago, Illinois 60611
The impact of neuromodulators on active dendritic conductances was investigated by the use of intracellular recording techniquesin spinal motoneurons in the adult cat. The well known lack ofvoltage control of dendritic regions during voltage clamp appliedat the soma was used to estimate dendritic amplification of asteady monosynaptic input generated by muscle spindle Ia afferents.In preparations deeply anesthetized with pentobarbital, Ia currenteither decreased with depolarization or underwent a modest increaseat membrane potentials above $-$ 40 mV. In unanesthetized decerebratepreparations (which have tonic activity in axons originating inthe brainstem and releasing serotonin or norepinephrine), activedendritic currents caused strong amplification of Ia input. Inthe range of $-$ 50 to $-$ 40 mV, peak Ia current was over four timesas large as that in the pentobarbital-anesthetized preparations.Exogenous administration of a noradrenergic agonist in additionto the tonic activity further enhanced amplification (sixfoldincrease). Amplification was not seen in preparations with spinaltransections. Overall, the dendritic amplification with moderateor strong neuromodulatory drive was estimated to be large enoughto allow the motoneurons innervating slow muscle fibers to bedriven to their maximum force levels by remarkably small synapticinputs. In these cells, the main role of synaptic input may beto control the activation of a highly excitable dendritic tree.The neuromodulatory control of synaptic amplification providesmotor commands with the potential to adjust the level of amplificationto suit the demands of different motortasks.

Key words: motoneuron; spinal cord; neuromodulation; electrophysiology; serotonin; norepinephrine; plateau potential; bistable; dendritic amplification
Copyright © 2000 Society for Neuroscience 0270-6474/00/20176734-07$05.00/0

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