Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.

Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.

BACKGROUND:Ghrelin targets the arcuate nucleus, from where growth hormone releasing hormone (GHRH) neurones trigger GH secretion. This hypothalamic nucleus also contains neuropeptide Y (NPY) neurons which play a master role in the effect of ghrelin on feeding. Interestingly, connections between NPY...

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Main Authors: Guillaume Osterstock, Pauline Escobar, Violeta Mitutsova, Laurie-Anne Gouty-Colomer, Pierre Fontanaud, François Molino, Jean-Alain Fehrentz, Danielle Carmignac, Jean Martinez, Nathalie C Guerineau, Iain C A F Robinson, Patrice Mollard, Pierre-François Méry
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-02-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2820089?pdf=render
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spelling doaj-5627aeb44d88436599b6fd6826f457a72020-11-25T02:12:17ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-02-0152e915910.1371/journal.pone.0009159Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.Guillaume OsterstockPauline EscobarVioleta MitutsovaLaurie-Anne Gouty-ColomerPierre FontanaudFrançois MolinoJean-Alain FehrentzDanielle CarmignacJean MartinezNathalie C GuerineauIain C A F RobinsonPatrice MollardPierre-François MéryBACKGROUND:Ghrelin targets the arcuate nucleus, from where growth hormone releasing hormone (GHRH) neurones trigger GH secretion. This hypothalamic nucleus also contains neuropeptide Y (NPY) neurons which play a master role in the effect of ghrelin on feeding. Interestingly, connections between NPY and GHRH neurons have been reported, leading to the hypothesis that the GH axis and the feeding circuits might be co-regulated by ghrelin. PRINCIPAL FINDINGS:Here, we show that ghrelin stimulates the firing rate of identified GHRH neurons, in transgenic GHRH-GFP mice. This stimulation is prevented by growth hormone secretagogue receptor-1 antagonism as well as by U-73122, a phospholipase C inhibitor and by calcium channels blockers. The effect of ghrelin does not require synaptic transmission, as it is not antagonized by gamma-aminobutyric acid, glutamate and NPY receptor antagonists. In addition, this hypothalamic effect of ghrelin is independent of somatostatin, the inhibitor of the GH axis, since it is also found in somatostatin knockout mice. Indeed, ghrelin does not modify synaptic currents of GHRH neurons. However, ghrelin exerts a strong and direct depolarizing effect on GHRH neurons, which supports their increased firing rate. CONCLUSION:Thus, GHRH neurons are a specific target for ghrelin within the brain, and not activated secondary to altered activity in feeding circuits. These results support the view that ghrelin related therapeutic approaches could be directed separately towards GH deficiency or feeding disorders.http://europepmc.org/articles/PMC2820089?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Guillaume Osterstock
Pauline Escobar
Violeta Mitutsova
Laurie-Anne Gouty-Colomer
Pierre Fontanaud
François Molino
Jean-Alain Fehrentz
Danielle Carmignac
Jean Martinez
Nathalie C Guerineau
Iain C A F Robinson
Patrice Mollard
Pierre-François Méry
spellingShingle Guillaume Osterstock
Pauline Escobar
Violeta Mitutsova
Laurie-Anne Gouty-Colomer
Pierre Fontanaud
François Molino
Jean-Alain Fehrentz
Danielle Carmignac
Jean Martinez
Nathalie C Guerineau
Iain C A F Robinson
Patrice Mollard
Pierre-François Méry
Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.
PLoS ONE
author_facet Guillaume Osterstock
Pauline Escobar
Violeta Mitutsova
Laurie-Anne Gouty-Colomer
Pierre Fontanaud
François Molino
Jean-Alain Fehrentz
Danielle Carmignac
Jean Martinez
Nathalie C Guerineau
Iain C A F Robinson
Patrice Mollard
Pierre-François Méry
author_sort Guillaume Osterstock
title Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.
title_short Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.
title_full Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.
title_fullStr Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.
title_full_unstemmed Ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.
title_sort ghrelin stimulation of growth hormone-releasing hormone neurons is direct in the arcuate nucleus.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2010-02-01
description BACKGROUND:Ghrelin targets the arcuate nucleus, from where growth hormone releasing hormone (GHRH) neurones trigger GH secretion. This hypothalamic nucleus also contains neuropeptide Y (NPY) neurons which play a master role in the effect of ghrelin on feeding. Interestingly, connections between NPY and GHRH neurons have been reported, leading to the hypothesis that the GH axis and the feeding circuits might be co-regulated by ghrelin. PRINCIPAL FINDINGS:Here, we show that ghrelin stimulates the firing rate of identified GHRH neurons, in transgenic GHRH-GFP mice. This stimulation is prevented by growth hormone secretagogue receptor-1 antagonism as well as by U-73122, a phospholipase C inhibitor and by calcium channels blockers. The effect of ghrelin does not require synaptic transmission, as it is not antagonized by gamma-aminobutyric acid, glutamate and NPY receptor antagonists. In addition, this hypothalamic effect of ghrelin is independent of somatostatin, the inhibitor of the GH axis, since it is also found in somatostatin knockout mice. Indeed, ghrelin does not modify synaptic currents of GHRH neurons. However, ghrelin exerts a strong and direct depolarizing effect on GHRH neurons, which supports their increased firing rate. CONCLUSION:Thus, GHRH neurons are a specific target for ghrelin within the brain, and not activated secondary to altered activity in feeding circuits. These results support the view that ghrelin related therapeutic approaches could be directed separately towards GH deficiency or feeding disorders.
url http://europepmc.org/articles/PMC2820089?pdf=render
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