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- Title
A regenerating neurone in the leech can form an electrical synapse on its severed axon segment.
- Authors
CARBONETTO, SALVATORE; MULLER, KENNETH J.
- Abstract
WHEN the nervous system develops, its constituent neurones establish connections with certain selected elements while rejecting others in a fashion that gives the completed system the precision it requires to function. Such specificity is also manifested during regeneration in the central nervous system (CNS)1-3. For example, regeneration and recognition have been demonstrated with electrophysiological techniques in the leech CNS4,5, where individual sensory neurones can select their normal postsynaptic targets from among apparently hundreds of alternatives, re-establishing chemical synaptic connections. The leech CNS has also provided an example of neurones re-establishing electrical continuity after surgical disruption of a connecting axon6. Such electrically connected 'S-cell' interneurones, one of which is situated in each of the 21 segmental ganglia of the leech, are linked at the ends of their axons by electrical synapses across which large molecules cannot pass7. The synapse between two S interneurones occurs in the axon bundles (connectives) that join ganglia. The discovery of this junction and the use of the enzyme horseradish peroxidase (HRP) as an intracellular marker have permitted a detailed morphological and physiological analysis of the steps by which a regenerating axon re-establishes synaptic contact with its proper target. We report here that one such step can be the formation of an electrical synapse between the regenerating neurone and its own severed axon segment, thereby restoring the neurone's functional integrity.
- Publication
Nature, 1977, Vol 267, Issue 5610, p450
- ISSN
0028-0836
- Publication type
Article
- DOI
10.1038/267450a0