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Tytuł pozycji:

Neuroendocrine-autonomic integration in the paraventricular nucleus: novel roles for dendritically released neuropeptides.

Tytuł :
Neuroendocrine-autonomic integration in the paraventricular nucleus: novel roles for dendritically released neuropeptides.
Autorzy :
Stern JE; Department of Physiology, Georgia Regents University, Augusta, GA, USA.
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Źródło :
Journal of neuroendocrinology [J Neuroendocrinol] 2015 Jun; Vol. 27 (6), pp. 487-97.
Typ publikacji :
Journal Article; Review
Język :
English
Imprint Name(s) :
Publication: <2010->: Malden, MA : Wiley & Sons
Original Publication: Eynsham, Oxon, UK : Oxford University Press, c1989-
MeSH Terms :
Autonomic Nervous System/*physiology
Dendrites/*metabolism
Neuropeptides/*metabolism
Neurosecretory Systems/*physiology
Paraventricular Hypothalamic Nucleus/*physiology
Animals ; Homeostasis ; Humans
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Grant Information :
R01 HL112225 United States HL NHLBI NIH HHS
Contributed Indexing :
Keywords: hypothalamus; neuroendocrine; osmotic; sympathetic; vasopressin
Substance Nomenclature :
0 (Neuropeptides)
Entry Date(s) :
Date Created: 20141230 Date Completed: 20160301 Latest Revision: 20181113
Update Code :
20210210
PubMed Central ID :
PMC4447596
DOI :
10.1111/jne.12252
PMID :
25546497
Czasopismo naukowe
Communication between pairs of neurones in the central nervous system typically involves classical 'hard-wired' synaptic transmission, characterised by high temporal and spatial precision. Over the last two decades, however, knowledge regarding the repertoire of communication modalities used in the brain has notably expanded to include less conventional forms, characterised by a diffuse and less temporally precise transfer of information. These forms are best suited to mediate communication among entire neuronal populations, now recognised to be a fundamental process in the brain for the generation of complex behaviours. In response to an osmotic stressor, the hypothalamic paraventricular nucleus (PVN) generates a multimodal homeostatic response that involves orchestrated neuroendocrine (i.e. systemic release of vasopressin) and autonomic (i.e. sympathetic outflow to the kidneys) components. The precise mechanisms that underlie interpopulation cross-talk between these two distinct neuronal populations, however, remain largely unknown. The present review summarises and discusses a series of recent studies that have identified the dendritic release of neuropeptides as a novel interpopulation signalling modality in the PVN. A current working model is described in which it is proposed that the activity-dependent dendritic release of vasopressin from neurosecretory neurones in the PVN acts in a diffusible manner to increase the activity of distant presympathetic neurones, resulting in an integrated sympathoexcitatory population response, particularly within the context of a hyperosmotic challenge. The cellular mechanism underlying this novel form of intercellular communication, as well as its physiological and pathophysiological implications, is discussed.
(© 2014 British Society for Neuroendocrinology.)

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