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The Journal of Neuroscience, February 1, 1998, 18(3):1142-1147

Short-Term Afferent Axotomy Increases Both Strength and Depression at Ia-Motoneuron Synapses in Rat

Kevin L. Seburn and Timothy C. Cope

Emory University Medical School, Department of Physiology, Atlanta, Georgia 30322

Synaptic efficacy at the rat Ia-motoneuron synapse has been reported to increase in vivo, within 3 d of sectioning a single muscle nerve (). We provide an indirect test of the hypothesis that this increase is caused by altered probability of transmitter release of axotomized afferents. Experiments consisted of in vivo recording of maximal composite group I EPSPs evoked in intact rat medial gastrocnemius (MG) motoneurons by stimulation of the lateral gastrocnemius-soleus nerve (LG-S). We compared the maximal LG-S EPSP amplitude and the response to high-frequency stimulation (modulation) recorded in untreated rats, with the same measures recorded in rats that had the LG-S nerve axotomized 3 d before data collection. In confirmation of previous work, the mean amplitude of LG-S EPSPs evoked by stimulation of axotomized afferents was significantly larger than that measured in untreated rats (3.9 ± 0.34 and 2.3 ± 0.19 mV, respectively). The increase in EPSP amplitude was accompanied by significantly greater negative modulation (depression) of EPSP amplitude during high-frequency stimulation (39 ± 4% and 53 ± 4%, untreated and treated, respectively). Modulation would not be expected to change if the increase in EPSP amplitude was attributable solely to a greater number of afferent connections (). Therefore, the present results are consistent with the hypothesis that the initial axotomy-induced increase in synaptic efficacy occurs because of an increase in the probability of transmitter release. Furthermore, these results suggest that the probability of transmitter release at this synapse is regulated by either afferent activity and/or trophic communication with the target muscle.

Key words: Ia afferent; synaptic plasticity; axotomy; monosynaptic; probability of transmitter release; rat; motoneuron; synaptic efficacy; activity; synaptic depression

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Copyright © 1998 Society for Neuroscience  0270-6474/98/1831142-06$05.00/0

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