Hypoxia tolerance in fish depends on catabolic preference between lipids and carbohydrates
Hypoxia is a common environmental stress factor in aquatic organisms, which varies among fish species. However, the mechanisms underlying the ability of fish species to tolerate hypoxia are not well known. Here, we showed that hypoxia response in different fish species was affected by lipid cataboli...
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| Published in | Dōngwùxué yánjiū Vol. 44; no. 5; pp. 954 - 966 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
China
Kunming Institute of Zoology, The Chinese Academy of Sciences
18.09.2023
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| Abstract | Hypoxia is a common environmental stress factor in aquatic organisms, which varies among fish species. However, the mechanisms underlying the ability of fish species to tolerate hypoxia are not well known. Here, we showed that hypoxia response in different fish species was affected by lipid catabolism and preference for lipid or carbohydrate energy sources. Activation of biochemical lipid catabolism through peroxisome proliferator-activated receptor alpha (Pparα) or increasing mitochondrial fat oxidation in tilapia decreased tolerance to acute hypoxia by increasing oxygen consumption and oxidative damage and reducing carbohydrate catabolism as an energy source. Conversely, lipid catabolism inhibition by suppressing entry of lipids into mitochondria in tilapia or individually knocking out three key genes of lipid catabolism in zebrafish increased tolerance to acute hypoxia by decreasing oxygen consumption and oxidative damage and promoting carbohydrate catabolism. However, anaerobic glycolysis suppression eliminated lipid catabolism inhibition-promoted hypoxia tolerance in adipose triglyceride lipase (
) mutant zebrafish. Using 14 fish species with different trophic levels and taxonomic status, the fish preferentially using lipids for energy were more intolerant to acute hypoxia than those preferentially using carbohydrates. Our study shows that hypoxia tolerance in fish depends on catabolic preference for lipids or carbohydrates, which can be modified by regulating lipid catabolism. |
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| AbstractList | Hypoxia is a common environmental stress factor in aquatic organisms, which varies among fish species. However, the mechanisms underlying the ability of fish species to tolerate hypoxia are not well known. Here, we showed that hypoxia response in different fish species was affected by lipid catabolism and preference for lipid or carbohydrate energy sources. Activation of biochemical lipid catabolism through peroxisome proliferator-activated receptor alpha (Pparα) or increasing mitochondrial fat oxidation in tilapia decreased tolerance to acute hypoxia by increasing oxygen consumption and oxidative damage and reducing carbohydrate catabolism as an energy source. Conversely, lipid catabolism inhibition by suppressing entry of lipids into mitochondria in tilapia or individually knocking out three key genes of lipid catabolism in zebrafish increased tolerance to acute hypoxia by decreasing oxygen consumption and oxidative damage and promoting carbohydrate catabolism. However, anaerobic glycolysis suppression eliminated lipid catabolism inhibition-promoted hypoxia tolerance in adipose triglyceride lipase (
) mutant zebrafish. Using 14 fish species with different trophic levels and taxonomic status, the fish preferentially using lipids for energy were more intolerant to acute hypoxia than those preferentially using carbohydrates. Our study shows that hypoxia tolerance in fish depends on catabolic preference for lipids or carbohydrates, which can be modified by regulating lipid catabolism. Hypoxia is a common environmental stress factor in aquatic organisms, which varies among fish species. However, the mechanisms underlying the ability of fish species to tolerate hypoxia are not well known. Here, we showed that hypoxia response in different fish species was affected by lipid catabolism and preference for lipid or carbohydrate energy sources. Activation of biochemical lipid catabolism through peroxisome proliferator-activated receptor alpha (Ppara) or increasing mitochondrial fat oxidation in tilapia decreased tolerance to acute hypoxia by increasing oxygen consumption and oxidative damage and reducing carbohydrate catabolism as an energy source. Conversely, lipid catabolism inhibition by suppressing entry of lipids into mitochondria in tilapia or individually knocking out three key genes of lipid catabolism in zebrafish increased tolerance to acute hypoxia by decreasing oxygen consumption and oxidative damage and promoting carbohydrate catabolism. However, anaerobic glycolysis suppression eliminated lipid catabolism inhibition-promoted hypoxia tolerance in adipose triglyceride lipase (atgl) mutant zebrafish. Using 14 fish species with different trophic levels and taxonomic status, the fish preferentially using lipids for energy were more intolerant to acute hypoxia than those preferentially using carbohydrates. Our study shows that hypoxia tolerance in fish depends on catabolic preference for lipids or carbohydrates, which can be modified by regulating lipid catabolism. |
| Author | Ma, Qiang Luo, Yuan Li, Ling-Yu Qiao, Fang Zhang, Mei-Ling Zhong, Jia Lin, Qiang Chen, Li-Qiao Du, Zhen-Yu Limbu, Samwel Mchele |
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| CitedBy_id | crossref_primary_10_1016_j_cellsig_2025_111751 crossref_primary_10_1016_j_aquaculture_2024_742015 crossref_primary_10_1111_1749_4877_12910 crossref_primary_10_1016_j_ecoenv_2024_116347 crossref_primary_10_3390_ani14172470 crossref_primary_10_1016_j_aqrep_2024_102346 crossref_primary_10_1016_j_aquaculture_2025_742333 crossref_primary_10_1016_j_scitotenv_2024_178277 crossref_primary_10_3389_fmars_2025_1530224 crossref_primary_10_1016_j_aquaculture_2024_741250 crossref_primary_10_3389_fmars_2023_1310415 |
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| SubjectTerms | Adaptation Animals Aquatic organisms Carbohydrates Carnitine Carp Catabolism Catfish Damage tolerance Danio rerio Diet Energy Energy resources Energy sources Environmental stress Experiments Fish Freshwater fishes Genes Glucose Glycolysis Hypoxia Hypoxia - veterinary Laboratory animals Lipid metabolism Lipids Metabolism Oxidation Oxidative Stress Oxygen consumption Peroxisome proliferator-activated receptors Proteins Tilapia Triglycerides Trophic levels Water temperature Whitefish Zebrafish |
| Title | Hypoxia tolerance in fish depends on catabolic preference between lipids and carbohydrates |
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