Contribution of Non-canonical Cortisol Actions in the Early Modulation of Glucose Metabolism of Gilthead Sea Bream ( Sparus aurata )

Contribution of Non-canonical Cortisol Actions in the Early Modulation of Glucose Metabolism of Gilthead Sea Bream ( Sparus aurata )

Teleost fish are exposed to diverse stressors in farming and wildlife conditions during their lifespan. Cortisol is the main glucocorticoid hormone involved in the regulation of their metabolic acclimation under physiological stressful conditions. In this context, increased plasma cortisol is associ...

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Published in:Frontiers in endocrinology (Lausanne) Vol. 10; p. 779
Main Authors: Aedo, Jorge E, Ruiz-Jarabo, Ignacio, Martínez-Rodríguez, Gonzalo, Boltaña, Sebastián, Molina, Alfredo, Valdés, Juan A, Mancera, Juan M
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 12-11-2019
Subjects:
cortisol
Endocrinology
gene expression
glucose metabolism
membrane-initiated cortisol action
Sparus aurata
stress response
membrane-initiated cortisol action
cortisol
stress response
Sparus aurata
glucose metabolism
gene expression
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Abstract Teleost fish are exposed to diverse stressors in farming and wildlife conditions during their lifespan. Cortisol is the main glucocorticoid hormone involved in the regulation of their metabolic acclimation under physiological stressful conditions. In this context, increased plasma cortisol is associated with energy substrate mobilization from metabolic tissues, such as liver and skeletal muscle, to rapidly obtain energy and cope with stress. The metabolic actions of cortisol have primarily been attributed to its genomic/classic action mechanism involving the interaction with intracellular receptors, and regulation of stress-responsive genes. However, cortisol can also interact with membrane components to activate rapid signaling pathways. In this work, using the teleost fish gilthead sea bream ( ) as a model, we evaluated the effects of membrane-initiated cortisol actions on the early modulation of glucose metabolism. For this purpose, juveniles were intraperitoneally administrated with cortisol and with its membrane impermeable analog, cortisol-BSA. After 1 and 6 h of each treatment, plasma cortisol levels were measured, together with glucose, glycogen and lactate in plasma, liver and skeletal muscle. Transcript levels of corticosteroids receptors ( , and ) and key gluconeogenesis ( and )- and glycolysis ( and ) related genes in the liver were also measured. Cortisol and cortisol-BSA administration increased plasma cortisol levels in 1 h after administration. Plasma glucose levels enhanced 6 h after each treatment. Hepatic glycogen content decreased in the liver at 1 h of both cortisol and cortisol-BSA administration, while increased at 6 h due to cortisol but not in response to cortisol-BSA. Expression of , and were preferentially increased by cortisol-BSA in the liver. Taking all these results in consideration, we suggest that non-canonical cortisol mechanisms contribute to the regulation of the early glucose metabolism responses to stress in .
AbstractList Teleost fish are exposed to diverse stressors in farming and wildlife conditions during their lifespan. Cortisol is the main glucocorticoid hormone involved in the regulation of their metabolic acclimation under physiological stressful conditions. In this context, increased plasma cortisol is associated with energy substrate mobilization from metabolic tissues, such as liver and skeletal muscle, to rapidly obtain energy and cope with stress. The metabolic actions of cortisol have primarily been attributed to its genomic/classic action mechanism involving the interaction with intracellular receptors, and regulation of stress-responsive genes. However, cortisol can also interact with membrane components to activate rapid signaling pathways. In this work, using the teleost fish gilthead sea bream (Sparus aurata) as a model, we evaluated the effects of membrane-initiated cortisol actions on the early modulation of glucose metabolism. For this purpose, S. aurata juveniles were intraperitoneally administrated with cortisol and with its membrane impermeable analog, cortisol-BSA. After 1 and 6 h of each treatment, plasma cortisol levels were measured, together with glucose, glycogen and lactate in plasma, liver and skeletal muscle. Transcript levels of corticosteroids receptors (gr1, gr2, and mr) and key gluconeogenesis (g6pc and pepck)- and glycolysis (pgam1 and aldo) related genes in the liver were also measured. Cortisol and cortisol-BSA administration increased plasma cortisol levels in S. aurata 1 h after administration. Plasma glucose levels enhanced 6 h after each treatment. Hepatic glycogen content decreased in the liver at 1 h of both cortisol and cortisol-BSA administration, while increased at 6 h due to cortisol but not in response to cortisol-BSA. Expression of gr1, g6pc, pgam1, and aldo were preferentially increased by cortisol-BSA in the liver. Taking all these results in consideration, we suggest that non-canonical cortisol mechanisms contribute to the regulation of the early glucose metabolism responses to stress in S. aurata.
Teleost fish are exposed to diverse stressors in farming and wildlife conditions during their lifespan. Cortisol is the main glucocorticoid hormone involved in the regulation of their metabolic acclimation under physiological stressful conditions. In this context, increased plasma cortisol is associated with energy substrate mobilization from metabolic tissues, such as liver and skeletal muscle, to rapidly obtain energy and cope with stress. The metabolic actions of cortisol have primarily been attributed to its genomic/classic action mechanism involving the interaction with intracellular receptors, and regulation of stress-responsive genes. However, cortisol can also interact with membrane components to activate rapid signaling pathways. In this work, using the teleost fish gilthead sea bream ( Sparus aurata ) as a model, we evaluated the effects of membrane-initiated cortisol actions on the early modulation of glucose metabolism. For this purpose, S. aurata juveniles were intraperitoneally administrated with cortisol and with its membrane impermeable analog, cortisol-BSA. After 1 and 6 h of each treatment, plasma cortisol levels were measured, together with glucose, glycogen and lactate in plasma, liver and skeletal muscle. Transcript levels of corticosteroids receptors ( gr1, gr2 , and mr ) and key gluconeogenesis ( g6pc and pepck )- and glycolysis ( pgam1 and aldo ) related genes in the liver were also measured. Cortisol and cortisol-BSA administration increased plasma cortisol levels in S. aurata 1 h after administration. Plasma glucose levels enhanced 6 h after each treatment. Hepatic glycogen content decreased in the liver at 1 h of both cortisol and cortisol-BSA administration, while increased at 6 h due to cortisol but not in response to cortisol-BSA. Expression of gr1, g6pc, pgam1 , and aldo were preferentially increased by cortisol-BSA in the liver. Taking all these results in consideration, we suggest that non-canonical cortisol mechanisms contribute to the regulation of the early glucose metabolism responses to stress in S. aurata .
Teleost fish are exposed to diverse stressors in farming and wildlife conditions during their lifespan. Cortisol is the main glucocorticoid hormone involved in the regulation of their metabolic acclimation under physiological stressful conditions. In this context, increased plasma cortisol is associated with energy substrate mobilization from metabolic tissues, such as liver and skeletal muscle, to rapidly obtain energy and cope with stress. The metabolic actions of cortisol have primarily been attributed to its genomic/classic action mechanism involving the interaction with intracellular receptors, and regulation of stress-responsive genes. However, cortisol can also interact with membrane components to activate rapid signaling pathways. In this work, using the teleost fish gilthead sea bream ( ) as a model, we evaluated the effects of membrane-initiated cortisol actions on the early modulation of glucose metabolism. For this purpose, juveniles were intraperitoneally administrated with cortisol and with its membrane impermeable analog, cortisol-BSA. After 1 and 6 h of each treatment, plasma cortisol levels were measured, together with glucose, glycogen and lactate in plasma, liver and skeletal muscle. Transcript levels of corticosteroids receptors ( , and ) and key gluconeogenesis ( and )- and glycolysis ( and ) related genes in the liver were also measured. Cortisol and cortisol-BSA administration increased plasma cortisol levels in 1 h after administration. Plasma glucose levels enhanced 6 h after each treatment. Hepatic glycogen content decreased in the liver at 1 h of both cortisol and cortisol-BSA administration, while increased at 6 h due to cortisol but not in response to cortisol-BSA. Expression of , and were preferentially increased by cortisol-BSA in the liver. Taking all these results in consideration, we suggest that non-canonical cortisol mechanisms contribute to the regulation of the early glucose metabolism responses to stress in .
Author Mancera, Juan M
Aedo, Jorge E
Martínez-Rodríguez, Gonzalo
Molina, Alfredo
Boltaña, Sebastián
Ruiz-Jarabo, Ignacio
Valdés, Juan A
AuthorAffiliation 1 Facultad de Ciencias de la Vida, Universidad Andrés Bello , Santiago , Chile
2 Interdisciplinary Center for Aquaculture Research (INCAR), Universidad de Concepción , Concepción , Chile
4 Department of Marine Biology and Aquaculture, Instituto de Ciencias Marinas de Andalucía (ICMAN-CSIC) , Puerto Real , Spain
3 Department of Biology, Faculty of Marine and Environmental Sciences, Instituto Universitario de Investigación Marina (INMAR), Campus de Excelencia Internacional del Mar (CEI-MAR), University of Cádiz , Cádiz , Spain
AuthorAffiliation_xml – name: 4 Department of Marine Biology and Aquaculture, Instituto de Ciencias Marinas de Andalucía (ICMAN-CSIC) , Puerto Real , Spain
– name: 3 Department of Biology, Faculty of Marine and Environmental Sciences, Instituto Universitario de Investigación Marina (INMAR), Campus de Excelencia Internacional del Mar (CEI-MAR), University of Cádiz , Cádiz , Spain
– name: 2 Interdisciplinary Center for Aquaculture Research (INCAR), Universidad de Concepción , Concepción , Chile
– name: 1 Facultad de Ciencias de la Vida, Universidad Andrés Bello , Santiago , Chile
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  surname: Ruiz-Jarabo
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  organization: Interdisciplinary Center for Aquaculture Research (INCAR), Universidad de Concepción, Concepción, Chile
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  givenname: Juan M
  surname: Mancera
  fullname: Mancera, Juan M
  organization: Department of Biology, Faculty of Marine and Environmental Sciences, Instituto Universitario de Investigación Marina (INMAR), Campus de Excelencia Internacional del Mar (CEI-MAR), University of Cádiz, Cádiz, Spain
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Copyright Copyright © 2019 Aedo, Ruiz-Jarabo, Martínez-Rodríguez, Boltaña, Molina, Valdés and Mancera.
Copyright © 2019 Aedo, Ruiz-Jarabo, Martínez-Rodríguez, Boltaña, Molina, Valdés and Mancera. 2019 Aedo, Ruiz-Jarabo, Martínez-Rodríguez, Boltaña, Molina, Valdés and Mancera
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Keywords membrane-initiated cortisol action
cortisol
stress response
Sparus aurata
glucose metabolism
gene expression
Language English
License Copyright © 2019 Aedo, Ruiz-Jarabo, Martínez-Rodríguez, Boltaña, Molina, Valdés and Mancera.
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Edited by: Russell J. Borski, North Carolina State University, United States
This article was submitted to Experimental Endocrinology, a section of the journal Frontiers in Endocrinology
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Snippet Teleost fish are exposed to diverse stressors in farming and wildlife conditions during their lifespan. Cortisol is the main glucocorticoid hormone involved in...
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SubjectTerms cortisol
Endocrinology
gene expression
glucose metabolism
membrane-initiated cortisol action
Sparus aurata
stress response
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Title Contribution of Non-canonical Cortisol Actions in the Early Modulation of Glucose Metabolism of Gilthead Sea Bream ( Sparus aurata )
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