Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways

Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways

Abstract Background The production of foie gras involves different metabolic pathways in the liver of overfed ducks such as lipid synthesis and carbohydrates catabolism, but the establishment of these pathways has not yet been described with precision during embryogenesis. The early environment can...

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Main Authors: William Massimino, Stéphane Davail, Aurélie Secula, Charlotte Andrieux, Marie-Dominique Bernadet, Tracy Pioche, Karine Ricaud, Karine Gontier, Mireille Morisson, Anne Collin, Stéphane Panserat, Marianne Houssier
Format: Article
Language:English
Published: BMC 2020-10-01
Series:BMC Genomics
Subjects:
Liver
Embryogenesis
Transcriptome
Online Access:http://link.springer.com/article/10.1186/s12864-020-07093-w
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spelling doaj-8dac11d3ce9c477d8b2bb14336efc1802020-11-25T03:56:33ZengBMCBMC Genomics1471-21642020-10-0121111310.1186/s12864-020-07093-wOntogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathwaysWilliam Massimino0Stéphane Davail1Aurélie Secula2Charlotte Andrieux3Marie-Dominique Bernadet4Tracy Pioche5Karine Ricaud6Karine Gontier7Mireille Morisson8Anne Collin9Stéphane Panserat10Marianne Houssier11Univ Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureUniv Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureIHAP, Université de Toulouse, ENVT, INRAE, UMR 1225Univ Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureINRAE Bordeaux-Aquitaine, UEPFG (Unité Expérimentale Palmipèdes à Foie Gras)Univ Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureUniv Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureUniv Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureGenPhySE, Université de Toulouse, INRAE, ENVTINRAE, Université de Tours, BOAUniv Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureUniv Pau & Pays Adour, INRAE, E2S UPPA, UMR 1419, Nutrition, Métabolisme, AquacultureAbstract Background The production of foie gras involves different metabolic pathways in the liver of overfed ducks such as lipid synthesis and carbohydrates catabolism, but the establishment of these pathways has not yet been described with precision during embryogenesis. The early environment can have short- and long-term impacts on the physiology of many animal species and can be used to influence physiological responses that is called programming. This study proposes to describe the basal hepatic metabolism at the level of mRNA in mule duck embryos in order to reveal potential interesting programming windows in the context of foie gras production. To this end, a kinetic study was designed to determine the level of expression of selected genes involved in steatosis-related liver functions throughout embryogenesis. The livers of 20 mule duck embryos were collected every 4 days from the 12th day of embryogenesis (E12) until 4 days after hatching (D4), and gene expression analysis was performed. The expression levels of 50 mRNAs were quantified for these 7 sampling points and classified into 4 major cellular pathways. Results Interestingly, most mRNAs involved in lipid metabolism are overexpressed after hatching (FASN, SCD1, ACOX1), whereas genes implicated in carbohydrate metabolism (HK1, GAPDH, GLUT1) and development (HGF, IGF, FGFR2) are predominantly overexpressed from E12 to E20. Finally, regarding cellular stress, gene expression appears quite stable throughout development, contrasting with strong expression after hatching (CYP2E1, HSBP1, HSP90AA1). Conclusion For the first time we described the kinetics of hepatic ontogenesis at mRNA level in mule ducks and highlighted different expression patterns depending on the cellular pathway. These results could be particularly useful in the design of embryonic programming for the production of foie gras.http://link.springer.com/article/10.1186/s12864-020-07093-wLiverEmbryogenesisTranscriptome
collection DOAJ
language English
format Article
sources DOAJ
author William Massimino
Stéphane Davail
Aurélie Secula
Charlotte Andrieux
Marie-Dominique Bernadet
Tracy Pioche
Karine Ricaud
Karine Gontier
Mireille Morisson
Anne Collin
Stéphane Panserat
Marianne Houssier
spellingShingle William Massimino
Stéphane Davail
Aurélie Secula
Charlotte Andrieux
Marie-Dominique Bernadet
Tracy Pioche
Karine Ricaud
Karine Gontier
Mireille Morisson
Anne Collin
Stéphane Panserat
Marianne Houssier
Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways
BMC Genomics
Liver
Embryogenesis
Transcriptome
author_facet William Massimino
Stéphane Davail
Aurélie Secula
Charlotte Andrieux
Marie-Dominique Bernadet
Tracy Pioche
Karine Ricaud
Karine Gontier
Mireille Morisson
Anne Collin
Stéphane Panserat
Marianne Houssier
author_sort William Massimino
title Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways
title_short Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways
title_full Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways
title_fullStr Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways
title_full_unstemmed Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways
title_sort ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2020-10-01
description Abstract Background The production of foie gras involves different metabolic pathways in the liver of overfed ducks such as lipid synthesis and carbohydrates catabolism, but the establishment of these pathways has not yet been described with precision during embryogenesis. The early environment can have short- and long-term impacts on the physiology of many animal species and can be used to influence physiological responses that is called programming. This study proposes to describe the basal hepatic metabolism at the level of mRNA in mule duck embryos in order to reveal potential interesting programming windows in the context of foie gras production. To this end, a kinetic study was designed to determine the level of expression of selected genes involved in steatosis-related liver functions throughout embryogenesis. The livers of 20 mule duck embryos were collected every 4 days from the 12th day of embryogenesis (E12) until 4 days after hatching (D4), and gene expression analysis was performed. The expression levels of 50 mRNAs were quantified for these 7 sampling points and classified into 4 major cellular pathways. Results Interestingly, most mRNAs involved in lipid metabolism are overexpressed after hatching (FASN, SCD1, ACOX1), whereas genes implicated in carbohydrate metabolism (HK1, GAPDH, GLUT1) and development (HGF, IGF, FGFR2) are predominantly overexpressed from E12 to E20. Finally, regarding cellular stress, gene expression appears quite stable throughout development, contrasting with strong expression after hatching (CYP2E1, HSBP1, HSP90AA1). Conclusion For the first time we described the kinetics of hepatic ontogenesis at mRNA level in mule ducks and highlighted different expression patterns depending on the cellular pathway. These results could be particularly useful in the design of embryonic programming for the production of foie gras.
topic Liver
Embryogenesis
Transcriptome
url http://link.springer.com/article/10.1186/s12864-020-07093-w
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