From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range

The thermal sensitivity of ectotherms is largely dictated by the impact of temperature on cellular bioenergetics, particularly on mitochondrial functions. As the thermal sensitivity of bioenergetic pathways depends on the structural and kinetic properties of its component enzymes, optimization of th...

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Published in:Frontiers in Physiology
Main Authors: Hunter-Manseau, Florence, Desrosiers, Véronique, Le François, Nathalie R., Dufresne, France, Detrich, H. William, Nozais, Christian, Blier, Pierre Ulrich
Format: Article in Journal/Newspaper
Language:French
Published: 2019
Subjects:
Mitochondries
Enzymes
Cellules
Cœur
Poisson
Adaptation Phénotype
Métabolisme
Température
Gradient thermique
Antarc*
Antarctica
Online Access:https://semaphore.uqar.ca/id/eprint/1721/
https://semaphore.uqar.ca/id/eprint/1721/1/Florence_Hunter_Manseau_et_al_octobre2019.pdf
https://doi.org/10.3389/fphys.2019.01220
id ftunivquebecar:oai:semaphore.uqar.ca:1721
record_format openpolar
spelling ftunivquebecar:oai:semaphore.uqar.ca:1721 2023-11-05T03:33:25+01:00 From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range Hunter-Manseau, Florence Desrosiers, Véronique Le François, Nathalie R. Dufresne, France Detrich, H. William Nozais, Christian Blier, Pierre Ulrich 2019-10-04 application/pdf https://semaphore.uqar.ca/id/eprint/1721/ https://semaphore.uqar.ca/id/eprint/1721/1/Florence_Hunter_Manseau_et_al_octobre2019.pdf https://doi.org/10.3389/fphys.2019.01220 fr fre https://semaphore.uqar.ca/id/eprint/1721/1/Florence_Hunter_Manseau_et_al_octobre2019.pdf Hunter-Manseau, Florence, Desrosiers, Véronique, Le François, Nathalie R., Dufresne, France, Detrich, H. William, Nozais, Christian et Blier, Pierre Ulrich orcid:0000-0003-1881-2421 (2019). From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range. Frontiers in Physiology . Mitochondries Enzymes Cellules Cœur Poisson Adaptation Phénotype Métabolisme Température Gradient thermique Article Évalué par les pairs 2019 ftunivquebecar https://doi.org/10.3389/fphys.2019.01220 2023-10-07T23:10:37Z The thermal sensitivity of ectotherms is largely dictated by the impact of temperature on cellular bioenergetics, particularly on mitochondrial functions. As the thermal sensitivity of bioenergetic pathways depends on the structural and kinetic properties of its component enzymes, optimization of their collective function to different thermal niches is expected to have occurred through selection. In the present study, we sought to characterize mitochondrial phenotypic adjustments to thermal niches in eight ray-finned fish species occupying a wide range of thermal habitats by comparing the activities of key mitochondrial enzymes in their hearts.We measured the activity of four enzymes that control substrate entrance into the tricarboxylic acid (TCA) cycle: pyruvate kinase (PK), pyruvate dehydrogenase complex (PDHc), carnitine palmitoyltransferase (CPT), and hydroxyacyl-CoA dehydrogenase (HOAD). We also assayed enzymes of the electron transport system (ETS): complexes I, II, I C III, and IV. Enzymes were assayed at five temperatures (5, 10, 15, 20, and 25°C). Our results showed that the activity of CPT, a gatekeeper of the fatty acid pathway, was higher in the cold-water fish than in the warmer-adapted fish relative to the ETS (complexes I and III) when measured close to the species optimal temperatures. The activity of HOAD showed a similar pattern relative to CI C III and thermal environment. By contrast, PDHc and PK did not show the similar patterns with respect to CI C III and temperature. Cold-adapted species had high CIVactivities compared to those of upstream complexes (I, II, I C III) whereas the converse was true for warm-adapted species. Our findings reveal a significant variability of heart mitochondrial organization among species that can be linked to temperature adaptation. Cold-adapted fish do not appear to compensate for PDHc activity but likely adjust fatty acids oxidation through higher activities of CPT and HOAD relative to complexes I C III. -- Keywords : temperature adaptation pyruvate ... Article in Journal/Newspaper Antarc* Antarctica Université du Québec à Rimouski (UQAR): Sémaphore Frontiers in Physiology 10
institution Open Polar
collection Université du Québec à Rimouski (UQAR): Sémaphore
op_collection_id ftunivquebecar
language French
topic Mitochondries
Enzymes
Cellules
Cœur
Poisson
Adaptation Phénotype
Métabolisme
Température
Gradient thermique
spellingShingle Mitochondries
Enzymes
Cellules
Cœur
Poisson
Adaptation Phénotype
Métabolisme
Température
Gradient thermique
Hunter-Manseau, Florence
Desrosiers, Véronique
Le François, Nathalie R.
Dufresne, France
Detrich, H. William
Nozais, Christian
Blier, Pierre Ulrich
From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range
topic_facet Mitochondries
Enzymes
Cellules
Cœur
Poisson
Adaptation Phénotype
Métabolisme
Température
Gradient thermique
description The thermal sensitivity of ectotherms is largely dictated by the impact of temperature on cellular bioenergetics, particularly on mitochondrial functions. As the thermal sensitivity of bioenergetic pathways depends on the structural and kinetic properties of its component enzymes, optimization of their collective function to different thermal niches is expected to have occurred through selection. In the present study, we sought to characterize mitochondrial phenotypic adjustments to thermal niches in eight ray-finned fish species occupying a wide range of thermal habitats by comparing the activities of key mitochondrial enzymes in their hearts.We measured the activity of four enzymes that control substrate entrance into the tricarboxylic acid (TCA) cycle: pyruvate kinase (PK), pyruvate dehydrogenase complex (PDHc), carnitine palmitoyltransferase (CPT), and hydroxyacyl-CoA dehydrogenase (HOAD). We also assayed enzymes of the electron transport system (ETS): complexes I, II, I C III, and IV. Enzymes were assayed at five temperatures (5, 10, 15, 20, and 25°C). Our results showed that the activity of CPT, a gatekeeper of the fatty acid pathway, was higher in the cold-water fish than in the warmer-adapted fish relative to the ETS (complexes I and III) when measured close to the species optimal temperatures. The activity of HOAD showed a similar pattern relative to CI C III and thermal environment. By contrast, PDHc and PK did not show the similar patterns with respect to CI C III and temperature. Cold-adapted species had high CIVactivities compared to those of upstream complexes (I, II, I C III) whereas the converse was true for warm-adapted species. Our findings reveal a significant variability of heart mitochondrial organization among species that can be linked to temperature adaptation. Cold-adapted fish do not appear to compensate for PDHc activity but likely adjust fatty acids oxidation through higher activities of CPT and HOAD relative to complexes I C III. -- Keywords : temperature adaptation pyruvate ...
format Article in Journal/Newspaper
author Hunter-Manseau, Florence
Desrosiers, Véronique
Le François, Nathalie R.
Dufresne, France
Detrich, H. William
Nozais, Christian
Blier, Pierre Ulrich
author_facet Hunter-Manseau, Florence
Desrosiers, Véronique
Le François, Nathalie R.
Dufresne, France
Detrich, H. William
Nozais, Christian
Blier, Pierre Ulrich
author_sort Hunter-Manseau, Florence
title From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range
title_short From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range
title_full From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range
title_fullStr From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range
title_full_unstemmed From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range
title_sort from africa to antarctica: exploring the metabolism of fish heart mitochondria across a wide thermal range
publishDate 2019
url https://semaphore.uqar.ca/id/eprint/1721/
https://semaphore.uqar.ca/id/eprint/1721/1/Florence_Hunter_Manseau_et_al_octobre2019.pdf
https://doi.org/10.3389/fphys.2019.01220
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_relation https://semaphore.uqar.ca/id/eprint/1721/1/Florence_Hunter_Manseau_et_al_octobre2019.pdf
Hunter-Manseau, Florence, Desrosiers, Véronique, Le François, Nathalie R., Dufresne, France, Detrich, H. William, Nozais, Christian et Blier, Pierre Ulrich orcid:0000-0003-1881-2421 (2019). From Africa to Antarctica: Exploring the Metabolism of Fish Heart Mitochondria Across a Wide Thermal Range. Frontiers in Physiology .
op_doi https://doi.org/10.3389/fphys.2019.01220
container_title Frontiers in Physiology
container_volume 10
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