Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding

<p>Abstract</p> <p>Background</p> <p>The hypothalamus plays a central role in regulating appetite and metabolism. However, the gene networks within the hypothalamus that regulate feed intake and metabolism, and the effects of fasting on those pathways are not completely...

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Main Authors: Saliba Jason, McCarthy Fiona, Trakooljul Nares, Ellestad Laura E, Higgins Stacy E, Cogburn Larry A, Porter Tom E
Format: Article
Language:English
Published: BMC 2010-03-01
Series:BMC Genomics
Online Access:http://www.biomedcentral.com/1471-2164/11/162
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spelling doaj-e4f1ba05898f4be39f7ca0762d5e525c2020-11-25T00:19:21ZengBMCBMC Genomics1471-21642010-03-0111116210.1186/1471-2164-11-162Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feedingSaliba JasonMcCarthy FionaTrakooljul NaresEllestad Laura EHiggins Stacy ECogburn Larry APorter Tom E<p>Abstract</p> <p>Background</p> <p>The hypothalamus plays a central role in regulating appetite and metabolism. However, the gene networks within the hypothalamus that regulate feed intake and metabolism, and the effects of fasting on those pathways are not completely understood in any species. The present experiment evaluated global hypothalamic gene expression in newly hatched chicks using microarray analysis to elucidate genes and pathways regulated by feeding, fasting, and delayed feeding. Ten groups of chicks were sampled over four days post-hatch, including fed, fasted, and 48 h fasted followed by access to feed for 4 h, 24 h, and 48 h. Hypothalamic samples were collected for microarray analysis (n = 4). Expression patterns of selected genes were confirmed by quantitative real-time PCR. Pathway analysis of the microarray results predicted a network of genes involved in neuropeptide or neurotransmitter signaling. To confirm the functionality of this predicted gene network, hypothalamic neurons from fed and fasted chicks were isolated and cultured in the presence of neuropeptide Y, somatostatin, α-melanocyte stimulating hormone, norepinephrine, and L-phospho-serine. Results confirmed functional relationships among members of the predicted gene network. Moreover, the effects observed were dependant upon the nutritional state of the animals (fed <it>vs</it>. fasted).</p> <p>Results</p> <p>Differences in gene expression (≥ 1.6 fold) were detected in 1,272 genes between treatments, and of those, 119 genes were significantly (P < 0.05) different. Pathway Miner analysis revealed that six genes (<it>SSTR5</it>, <it>NPY5R</it>, <it>POMC</it>, <it>ADRB2</it>, <it>GRM8</it>, and <it>RLN3</it>) were associated within a gene network. <it>In vitro </it>experiments with primary hypothalamic neurons confirmed that receptor agonists involved in this network regulated expression of other genes in the predicted network, and this regulation within the network was influenced by the nutritional status and age of the chick.</p> <p>Conclusions</p> <p>Microarray analysis of the hypothalamus during different nutritional states revealed that many genes are differentially regulated. We found that functional interactions exist among six differentially regulated genes associated within a putative gene network from this experiment. Considering that <it>POMC</it>, an important gene in controlling metabolism, was central to this network, this gene network may play an important role in regulation of feeding and metabolism in birds.</p> http://www.biomedcentral.com/1471-2164/11/162
collection DOAJ
language English
format Article
sources DOAJ
author Saliba Jason
McCarthy Fiona
Trakooljul Nares
Ellestad Laura E
Higgins Stacy E
Cogburn Larry A
Porter Tom E
spellingShingle Saliba Jason
McCarthy Fiona
Trakooljul Nares
Ellestad Laura E
Higgins Stacy E
Cogburn Larry A
Porter Tom E
Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding
BMC Genomics
author_facet Saliba Jason
McCarthy Fiona
Trakooljul Nares
Ellestad Laura E
Higgins Stacy E
Cogburn Larry A
Porter Tom E
author_sort Saliba Jason
title Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding
title_short Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding
title_full Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding
title_fullStr Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding
title_full_unstemmed Transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding
title_sort transcriptional and pathway analysis in the hypothalamus of newly hatched chicks during fasting and delayed feeding
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2010-03-01
description <p>Abstract</p> <p>Background</p> <p>The hypothalamus plays a central role in regulating appetite and metabolism. However, the gene networks within the hypothalamus that regulate feed intake and metabolism, and the effects of fasting on those pathways are not completely understood in any species. The present experiment evaluated global hypothalamic gene expression in newly hatched chicks using microarray analysis to elucidate genes and pathways regulated by feeding, fasting, and delayed feeding. Ten groups of chicks were sampled over four days post-hatch, including fed, fasted, and 48 h fasted followed by access to feed for 4 h, 24 h, and 48 h. Hypothalamic samples were collected for microarray analysis (n = 4). Expression patterns of selected genes were confirmed by quantitative real-time PCR. Pathway analysis of the microarray results predicted a network of genes involved in neuropeptide or neurotransmitter signaling. To confirm the functionality of this predicted gene network, hypothalamic neurons from fed and fasted chicks were isolated and cultured in the presence of neuropeptide Y, somatostatin, α-melanocyte stimulating hormone, norepinephrine, and L-phospho-serine. Results confirmed functional relationships among members of the predicted gene network. Moreover, the effects observed were dependant upon the nutritional state of the animals (fed <it>vs</it>. fasted).</p> <p>Results</p> <p>Differences in gene expression (≥ 1.6 fold) were detected in 1,272 genes between treatments, and of those, 119 genes were significantly (P < 0.05) different. Pathway Miner analysis revealed that six genes (<it>SSTR5</it>, <it>NPY5R</it>, <it>POMC</it>, <it>ADRB2</it>, <it>GRM8</it>, and <it>RLN3</it>) were associated within a gene network. <it>In vitro </it>experiments with primary hypothalamic neurons confirmed that receptor agonists involved in this network regulated expression of other genes in the predicted network, and this regulation within the network was influenced by the nutritional status and age of the chick.</p> <p>Conclusions</p> <p>Microarray analysis of the hypothalamus during different nutritional states revealed that many genes are differentially regulated. We found that functional interactions exist among six differentially regulated genes associated within a putative gene network from this experiment. Considering that <it>POMC</it>, an important gene in controlling metabolism, was central to this network, this gene network may play an important role in regulation of feeding and metabolism in birds.</p>
url http://www.biomedcentral.com/1471-2164/11/162
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