http://www.cnr.it/ontology/cnr/individuo/prodotto/ID37937
Acute physiological response of mammalian central neurons to axotomy: ionic regulation and electrical activity (Articolo in rivista)
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- Label
- Acute physiological response of mammalian central neurons to axotomy: ionic regulation and electrical activity (Articolo in rivista) (literal)
- Anno
- 2004-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.1096/fj.04-1805fje (literal)
- Alternative label
Mandolesi G, Madeddu F, Bozzi Y, Maffei L, Ratto GM (2004)
Acute physiological response of mammalian central neurons to axotomy: ionic regulation and electrical activity
in The FASEB journal
(literal)
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- Mandolesi G, Madeddu F, Bozzi Y, Maffei L, Ratto GM (literal)
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- Published both on the press Journal (3 pages) and in extended form online (24 pages) (literal)
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- http://www.fasebj.org/content/early/2004/12/03/fj.04-1805fje.long (literal)
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- ISI Web of Science (WOS) (literal)
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- Institute of Neuroscience CNR, Pisa, Italy. (literal)
- Titolo
- Acute physiological response of mammalian central neurons to axotomy: ionic regulation and electrical activity (literal)
- Abstract
- The transection of the axon of central neurons has dramatic consequences on the damaged cells and
nerves. Injury activates molecular programs leading to a complex repertoire of responses that,
depending on the cellular context, include activation of sprouting, axonal degeneration, and cell death.
Although the cellular mechanisms started at the time of lesion are likely to shape the changes affecting
injured cells, the acute physiological reaction to trauma of mammalian central neurons is not
completely understood yet. To characterize the physiology of the acute response to axonal transection,
we have developed a model of in vitro axotomy of neurons cultured from the rodent cortex. Imaging
showed that axotomy caused an increase of calcium in the soma and axon. Propagation of the response
to the soma required the activation of voltage-dependent sodium channels, since it was blocked by
tetrodotoxin. The electrophysiological response to axotomy was recorded in patched neurons kept in
the current clamp configuration: injury was followed by vigorous spiking activity that caused a sodium
load and the activation of transient calcium currents that were opened by each action potential. The
decrease of the electrochemical gradient of sodium caused inversion of the Na-Ca exchanger that
provided an additional mean of entry for calcium. Finally, we determined that inhibition of the
physiological response to axotomy hindered the regeneration of a new neurite. These data provide
elements of the framework required to link the axotomy itself to the downstream molecular machinery
that contributes to the determination of the long-term fate of injured neurons and axons. (literal)
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