Emergent Synchronous Bursting of Oxytocin Neuronal Network
dc.contributor.author
Rossoni, E.
en
dc.contributor.author
Feng, J. F.
en
dc.contributor.author
Tirozzi, B.
en
dc.contributor.author
Brown, D.
en
dc.contributor.author
Leng, G.
en
dc.contributor.author
Moos, F.
en
dc.date.accessioned
2011-03-09T14:35:28Z
dc.date.available
2011-03-09T14:35:28Z
dc.date.issued
2008
dc.date.updated
2011-03-09T14:35:28Z
dc.description.abstract
When young suckle, they are rewarded intermittently with a let-down of milk that results from reflex secretion of the hormone oxytocin; without oxytocin, newly born young will die unless they are fostered. Oxytocin is made by magnocellular hypothalamic neurons, and is secreted from their nerve endings in the pituitary in response to action potentials (spikes) that are generated in the cell bodies and which are propagated down their axons to the nerve endings. Normally, oxytocin cells discharge asynchronously at 1-3 spikes/s, but during suckling, every 5 min or so, each discharges a brief, intense burst of spikes that release a pulse of oxytocin into the circulation. This reflex was the first, and is perhaps the best, example of a physiological role for peptide-mediated communication within the brain: it is coordinated by the release of oxytocin from the dendrites of oxytocin cells; it can be facilitated by injection of tiny amounts of oxytocin into the hypothalamus, and it can be blocked by injection of tiny amounts of oxytocin antagonist. Here we show how synchronized bursting can arise in a neuronal network model that incorporates basic observations of the physiology of oxytocin cells. In our model, bursting is an emergent behaviour of a complex system, involving both positive and negative feedbacks, between many sparsely connected cells. The oxytocin cells are regulated by independent afferent inputs, but they interact by local release of oxytocin and endocannabinoids. Oxytocin released from the dendrites of these cells has a positive-feedback effect, while endocannabinoids have an inhibitory effect by suppressing the afferent input to the cells.
en
dc.identifier.doi
10.1371/journal.pcbi.1000123
dc.identifier.issn
1553-7358
dc.identifier.uri
http://www.ploscompbiol.org/article/info:doi%2F10.1371%2Fjournal.pcbi.1000123
dc.identifier.uri
http://hdl.handle.net/1842/4841
dc.publisher
Public Library of Science
en
dc.title
Emergent Synchronous Bursting of Oxytocin Neuronal Network
en
dc.type
Article
en
rps.issue
7
en
rps.title
Plos Computational Biology
en
rps.volume
4
en
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