Document Type
Article
Publication Date
10-1-2006
Department
Coastal Sciences, Gulf Coast Research Laboratory
Abstract
The goal of the current study was to generate a comprehensive, multi-tissue perspective of the effects of chronic hypoxic exposure on carbohydrate metabolism in the Gulf killifish Fundulus grandis. Fish were held at approximately 1.3 mg l(-1) dissolved oxygen (similar to 3.6 kPa) for 4 weeks, after which maximal activities were measured for all glycolytic enzymes in four tissues (white skeletal muscle, liver, heart and brain), as well as for enzymes of glycogen metabolism (in muscle and liver) and gluconeogenesis (in liver). The specific activities of enzymes of glycolysis and glycogen metabolism were strongly suppressed by hypoxia in white skeletal muscle, which may reflect decreased energy demand in this tissue during chronic hypoxia. In contrast, several enzyme specific activities were higher in liver tissue after hypoxic exposure, suggesting increased capacity for carbohydrate metabolism. Hypoxic exposure affected fewer enzymes in heart and brain than in skeletal muscle and liver, and the changes were smaller in magnitude, perhaps due to preferential perfusion of heart and brain during hypoxia. The specific activities of some gluconeogenic enzymes increased in liver during long-term hypoxic exposure, which may be coupled to increased protein catabolism in skeletal muscle. These results demonstrate that when intact fish are subjected to prolonged hypoxia, enzyme activities respond in a tissue-specific fashion reflecting the balance of energetic demands, metabolic role and oxygen supply of particular tissues. Furthermore, within glycolysis, the effects of hypoxia varied among enzymes, rather than being uniformly distributed among pathway enzymes.
Publication Title
Journal of Experimental Biology
Volume
209
Issue
19
First Page
3851
Last Page
3861
Recommended Citation
Mártinez, M. L.,
Landry, C.,
Boehm, R.,
Manning, S.,
Rees, B. B.
(2006). Effects of Long-Term Hypoxia On Enzymes of Carbohydrate Metabolism In the Gulf Killifish, Fundulus grandis. Journal of Experimental Biology, 209(19), 3851-3861.
Available at: https://aquila.usm.edu/fac_pubs/2205
Comments
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