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Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress

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Zeitschriftentitel: Journal of Experimental Biology
Personen und Körperschaften: Chung, Dillon J., Sparagna, Genevieve C., Chicco, Adam J., Schulte, Patricia M.
In: Journal of Experimental Biology, 221, 2018, 7
Format: E-Article
Sprache: Englisch
veröffentlicht:
The Company of Biologists
Schlagwörter:
Insect Science
Molecular Biology
Animal Science and Zoology
Aquatic Science
Physiology
Ecology, Evolution, Behavior and Systematics
author_facet Chung, Dillon J.
Sparagna, Genevieve C.
Chicco, Adam J.
Schulte, Patricia M.
Chung, Dillon J.
Sparagna, Genevieve C.
Chicco, Adam J.
Schulte, Patricia M.
author Chung, Dillon J.
Sparagna, Genevieve C.
Chicco, Adam J.
Schulte, Patricia M.
spellingShingle Chung, Dillon J.
Sparagna, Genevieve C.
Chicco, Adam J.
Schulte, Patricia M.
Journal of Experimental Biology
Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
Insect Science
Molecular Biology
Animal Science and Zoology
Aquatic Science
Physiology
Ecology, Evolution, Behavior and Systematics
author_sort chung, dillon j.
spelling Chung, Dillon J. Sparagna, Genevieve C. Chicco, Adam J. Schulte, Patricia M. 1477-9145 0022-0949 The Company of Biologists Insect Science Molecular Biology Animal Science and Zoology Aquatic Science Physiology Ecology, Evolution, Behavior and Systematics http://dx.doi.org/10.1242/jeb.174458 <jats:title>ABSTRACT</jats:title> <jats:p>The effect of temperature on mitochondrial performance is thought to be partly due to its effect on mitochondrial membranes. Numerous studies have shown that thermal acclimation and adaptation can alter the amount of inner-mitochondrial membrane (IMM), but little is known about the capacity of organisms to modulate mitochondrial membrane composition. Using northern and southern subspecies of Atlantic killifish (Fundulus heteroclitus) that are locally adapted to different environmental temperatures, we assessed whether thermal acclimation altered liver mitochondrial respiratory capacity or the composition and amount of IMM. We measured changes in phospholipid headgroups and headgroup-specific fatty acid (FA) remodeling, and used respirometry to assess mitochondrial respiratory capacity. Acclimation to 5°C and 33°C altered mitochondrial respiratory capacity in both subspecies. Northern F. heteroclitus exhibited greater mitochondrial respiratory capacity across acclimation temperatures, consistent with previously observed subspecies differences in whole-organism aerobic metabolism. Mitochondrial phospholipids were altered following thermal acclimation, and the direction of these changes was largely consistent between subspecies. These effects were primarily driven by remodeling of specific phospholipid classes and were associated with shifts in metabolic phenotypes. There were also differences in membrane composition between subspecies that were driven largely by differences in phospholipid classes. Changes in respiratory capacity between subspecies and with acclimation were largely but not completely accounted for by alterations in the amount of IMM. Taken together, these results support a role for changes in liver mitochondrial function in the ectothermic response to thermal stress during both acclimation and adaptation, and implicate lipid remodeling as a mechanism contributing to these changes.</jats:p> Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress Journal of Experimental Biology
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title Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_unstemmed Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_full Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_fullStr Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_full_unstemmed Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_short Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_sort patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
topic Insect Science
Molecular Biology
Animal Science and Zoology
Aquatic Science
Physiology
Ecology, Evolution, Behavior and Systematics
url http://dx.doi.org/10.1242/jeb.174458
publishDate 2018
physical
description <jats:title>ABSTRACT</jats:title> <jats:p>The effect of temperature on mitochondrial performance is thought to be partly due to its effect on mitochondrial membranes. Numerous studies have shown that thermal acclimation and adaptation can alter the amount of inner-mitochondrial membrane (IMM), but little is known about the capacity of organisms to modulate mitochondrial membrane composition. Using northern and southern subspecies of Atlantic killifish (Fundulus heteroclitus) that are locally adapted to different environmental temperatures, we assessed whether thermal acclimation altered liver mitochondrial respiratory capacity or the composition and amount of IMM. We measured changes in phospholipid headgroups and headgroup-specific fatty acid (FA) remodeling, and used respirometry to assess mitochondrial respiratory capacity. Acclimation to 5°C and 33°C altered mitochondrial respiratory capacity in both subspecies. Northern F. heteroclitus exhibited greater mitochondrial respiratory capacity across acclimation temperatures, consistent with previously observed subspecies differences in whole-organism aerobic metabolism. Mitochondrial phospholipids were altered following thermal acclimation, and the direction of these changes was largely consistent between subspecies. These effects were primarily driven by remodeling of specific phospholipid classes and were associated with shifts in metabolic phenotypes. There were also differences in membrane composition between subspecies that were driven largely by differences in phospholipid classes. Changes in respiratory capacity between subspecies and with acclimation were largely but not completely accounted for by alterations in the amount of IMM. Taken together, these results support a role for changes in liver mitochondrial function in the ectothermic response to thermal stress during both acclimation and adaptation, and implicate lipid remodeling as a mechanism contributing to these changes.</jats:p>
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author Chung, Dillon J., Sparagna, Genevieve C., Chicco, Adam J., Schulte, Patricia M.
author_facet Chung, Dillon J., Sparagna, Genevieve C., Chicco, Adam J., Schulte, Patricia M., Chung, Dillon J., Sparagna, Genevieve C., Chicco, Adam J., Schulte, Patricia M.
author_sort chung, dillon j.
container_issue 7
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description <jats:title>ABSTRACT</jats:title> <jats:p>The effect of temperature on mitochondrial performance is thought to be partly due to its effect on mitochondrial membranes. Numerous studies have shown that thermal acclimation and adaptation can alter the amount of inner-mitochondrial membrane (IMM), but little is known about the capacity of organisms to modulate mitochondrial membrane composition. Using northern and southern subspecies of Atlantic killifish (Fundulus heteroclitus) that are locally adapted to different environmental temperatures, we assessed whether thermal acclimation altered liver mitochondrial respiratory capacity or the composition and amount of IMM. We measured changes in phospholipid headgroups and headgroup-specific fatty acid (FA) remodeling, and used respirometry to assess mitochondrial respiratory capacity. Acclimation to 5°C and 33°C altered mitochondrial respiratory capacity in both subspecies. Northern F. heteroclitus exhibited greater mitochondrial respiratory capacity across acclimation temperatures, consistent with previously observed subspecies differences in whole-organism aerobic metabolism. Mitochondrial phospholipids were altered following thermal acclimation, and the direction of these changes was largely consistent between subspecies. These effects were primarily driven by remodeling of specific phospholipid classes and were associated with shifts in metabolic phenotypes. There were also differences in membrane composition between subspecies that were driven largely by differences in phospholipid classes. Changes in respiratory capacity between subspecies and with acclimation were largely but not completely accounted for by alterations in the amount of IMM. Taken together, these results support a role for changes in liver mitochondrial function in the ectothermic response to thermal stress during both acclimation and adaptation, and implicate lipid remodeling as a mechanism contributing to these changes.</jats:p>
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spelling Chung, Dillon J. Sparagna, Genevieve C. Chicco, Adam J. Schulte, Patricia M. 1477-9145 0022-0949 The Company of Biologists Insect Science Molecular Biology Animal Science and Zoology Aquatic Science Physiology Ecology, Evolution, Behavior and Systematics http://dx.doi.org/10.1242/jeb.174458 <jats:title>ABSTRACT</jats:title> <jats:p>The effect of temperature on mitochondrial performance is thought to be partly due to its effect on mitochondrial membranes. Numerous studies have shown that thermal acclimation and adaptation can alter the amount of inner-mitochondrial membrane (IMM), but little is known about the capacity of organisms to modulate mitochondrial membrane composition. Using northern and southern subspecies of Atlantic killifish (Fundulus heteroclitus) that are locally adapted to different environmental temperatures, we assessed whether thermal acclimation altered liver mitochondrial respiratory capacity or the composition and amount of IMM. We measured changes in phospholipid headgroups and headgroup-specific fatty acid (FA) remodeling, and used respirometry to assess mitochondrial respiratory capacity. Acclimation to 5°C and 33°C altered mitochondrial respiratory capacity in both subspecies. Northern F. heteroclitus exhibited greater mitochondrial respiratory capacity across acclimation temperatures, consistent with previously observed subspecies differences in whole-organism aerobic metabolism. Mitochondrial phospholipids were altered following thermal acclimation, and the direction of these changes was largely consistent between subspecies. These effects were primarily driven by remodeling of specific phospholipid classes and were associated with shifts in metabolic phenotypes. There were also differences in membrane composition between subspecies that were driven largely by differences in phospholipid classes. Changes in respiratory capacity between subspecies and with acclimation were largely but not completely accounted for by alterations in the amount of IMM. Taken together, these results support a role for changes in liver mitochondrial function in the ectothermic response to thermal stress during both acclimation and adaptation, and implicate lipid remodeling as a mechanism contributing to these changes.</jats:p> Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress Journal of Experimental Biology
spellingShingle Chung, Dillon J., Sparagna, Genevieve C., Chicco, Adam J., Schulte, Patricia M., Journal of Experimental Biology, Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress, Insect Science, Molecular Biology, Animal Science and Zoology, Aquatic Science, Physiology, Ecology, Evolution, Behavior and Systematics
title Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_full Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_fullStr Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_full_unstemmed Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_short Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_sort patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
title_unstemmed Patterns of mitochondrial membrane remodeling parallel functional adaptations to thermal stress
topic Insect Science, Molecular Biology, Animal Science and Zoology, Aquatic Science, Physiology, Ecology, Evolution, Behavior and Systematics
url http://dx.doi.org/10.1242/jeb.174458