Regeneration of Cerebral-Buccal Interneurons and Recovery of Ingestion Buccal Motor Programs in Aplysia After CNS Lesions

Division of Biological Sciences, University of Missouri-Columbia, Columbia, Missouri 65211 Sánchez, José Antonio D., Yongsheng Li, and Mark D. Kirk. Regeneration of Cerebral-Buccal Interneurons and Recovery of Ingestion Buccal Motor Programs in Aplysia After CNS Lesions. J. Neurophysiol. 84: 2961-29...

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Published in:Journal of neurophysiology 2000-12, Vol.84 (6), p.2961-2974
Main Authors: Sanchez, Jose Antonio D, Li, Yongsheng, Kirk, Mark D
Format: Article
Language:English
Subjects:
Animals
Aplysia
Axons - physiology
Central Nervous System - physiology
Central Nervous System - surgery
Excitatory Postsynaptic Potentials - physiology
Feeding Behavior - physiology
Interneurons - physiology
Interneurons - ultrastructure
Nerve Crush
Nerve Regeneration - physiology
Neurites - ultrastructure
Recovery of Function - physiology
Synapses - physiology
Synapses - ultrastructure
Time Factors
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Summary:Division of Biological Sciences, University of Missouri-Columbia, Columbia, Missouri 65211 Sánchez, José Antonio D., Yongsheng Li, and Mark D. Kirk. Regeneration of Cerebral-Buccal Interneurons and Recovery of Ingestion Buccal Motor Programs in Aplysia After CNS Lesions. J. Neurophysiol. 84: 2961-2974, 2000. In the sea slug Aplysia , rhythmic biting is eliminated after bilateral cerebral-buccal connective (CBC) crushes and recovers within 14 days postlesion (dpl). The ability of cerebral-buccal interneuron-2 (CBI-2) to elicit ingestion buccal motor programs (iBMPs; i.e., fictive rhythmic ingestion) and to regenerate synaptic connections with target buccal neurons was assessed with intracellular recordings and dye injections. Isolated central ganglia were obtained from control animals and from lesioned animals at selected times after bilateral CBC crushes. Within 3 wk postlesion, transected CBI-2 axons sprouted at least 10 fine neurites confined to the core of the CBC that projected across the crush site toward the buccal ganglia. When fired with depolarizing current steps, CBI-2 was not observed to elicit iBMPs in preparations until 14 dpl. Thereafter a progressive enhancement in CBI-2's ability to elicit iBMPs was observed with time postlesion. By 40 dpl, CBI-2-elicited iBMPs were indistinguishable from those of controls. CBI-2 regenerated monosynaptic connections with appropriate buccal premotor- and motorneurons by 14 dpl, and the strength of these connections increased with time postlesion. Dramatic frequency facilitation was exhibited by the regenerating CBI-2 buccal synapses; for instance, at early postlesion times, no observable excitatory postsynaptic potentials (EPSPs) were obtained with 1- Hz stimulation of CBI-2, while at 7 Hz, a dramatic increase in EPSP amplitude was obtained with successive spikes. The present study shows that the time course of axonal and synaptic regeneration by command-like interneuron CBI-2 is correlated with the recovery of ingestion buccal motor programs elicited by CBI-2. These results parallel our previous findings of functional neural regeneration in the feeding system and suggest that functional neural regeneration is at least in part mediated by regeneration of specific synaptic pathways.
ISSN:0022-3077
1522-1598
DOI:10.1152/jn.2000.84.6.2961