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Effects of hypoxia and low temperature on substrate fluxes in fish: plasma metabolite concentrations are misleading
F. Haman, G. Zwingelstein and J. M. Weber Biology Department, University of Ottawa, Ontario, Canada. Oxygen levels and temperature can fluctuate rapidly in aquatic environments. Ever though the effects of environmental stresses on fish metabolism have been studied extensively, information on fue kin...
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| Published in: | American journal of physiology. Regulatory, integrative and comparative physiology integrative and comparative physiology, 1997-12, Vol.273 (6), p.2046-R2054 |
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| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c400t-b8dc38cfded70d6dd304435b367efb0f4f51cad7cf664afc89d7d021562b0cf53 |
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| cites | cdi_FETCH-LOGICAL-c400t-b8dc38cfded70d6dd304435b367efb0f4f51cad7cf664afc89d7d021562b0cf53 |
| container_end_page | R2054 |
| container_issue | 6 |
| container_start_page | 2046 |
| container_title | American journal of physiology. Regulatory, integrative and comparative physiology |
| container_volume | 273 |
| creator | Haman, Francois Zwingelstein, Georges Weber, Jean-Michel |
| description | F. Haman, G. Zwingelstein and J. M. Weber
Biology Department, University of Ottawa, Ontario, Canada.
Oxygen levels and temperature can fluctuate rapidly in aquatic
environments. Ever though the effects of environmental stresses on fish
metabolism have been studied extensively, information on fue kinetics is
extremely limited because it relies almost exclusively on changes in
substrate concentrations. The turnover rate of nonesterified fatty acids
(NEFA) has never been measured in fish. Therefore, our goal was to quantify
glucose and NEFA fluxes in rainbow trout acutely exposed to severe hypoxia
(25% O2 saturation) or low temperature (6 degrees C for fish acclimated to
15 degrees C) by performing continuous infusions of 6-[3H]glucose and
1-[14C]palmitate in vivo. Results show that hypoxia causes a 53% decrease
in NEFA turnover rate, together with a transient increase in hepatic
glucose production, whereas a rapid drop in temperature induces equivalent
declines in glucose, NEFA, and oxygen fluxes [temperature coefficient
approximately equal to 2]. More importantly, kinetic changes in glucose and
NEFA fluxes are not accompanied by interpretable changes in the plasma
concentrations of these metabolites. Thus using concentration changes to
draw conclusions about fluxes must be avoided. |
| doi_str_mv | 10.1152/ajpregu.1997.273.6.R2046 |
| format | article |
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Biology Department, University of Ottawa, Ontario, Canada.
Oxygen levels and temperature can fluctuate rapidly in aquatic
environments. Ever though the effects of environmental stresses on fish
metabolism have been studied extensively, information on fue kinetics is
extremely limited because it relies almost exclusively on changes in
substrate concentrations. The turnover rate of nonesterified fatty acids
(NEFA) has never been measured in fish. Therefore, our goal was to quantify
glucose and NEFA fluxes in rainbow trout acutely exposed to severe hypoxia
(25% O2 saturation) or low temperature (6 degrees C for fish acclimated to
15 degrees C) by performing continuous infusions of 6-[3H]glucose and
1-[14C]palmitate in vivo. Results show that hypoxia causes a 53% decrease
in NEFA turnover rate, together with a transient increase in hepatic
glucose production, whereas a rapid drop in temperature induces equivalent
declines in glucose, NEFA, and oxygen fluxes [temperature coefficient
approximately equal to 2]. More importantly, kinetic changes in glucose and
NEFA fluxes are not accompanied by interpretable changes in the plasma
concentrations of these metabolites. Thus using concentration changes to
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Biology Department, University of Ottawa, Ontario, Canada.
Oxygen levels and temperature can fluctuate rapidly in aquatic
environments. Ever though the effects of environmental stresses on fish
metabolism have been studied extensively, information on fue kinetics is
extremely limited because it relies almost exclusively on changes in
substrate concentrations. The turnover rate of nonesterified fatty acids
(NEFA) has never been measured in fish. Therefore, our goal was to quantify
glucose and NEFA fluxes in rainbow trout acutely exposed to severe hypoxia
(25% O2 saturation) or low temperature (6 degrees C for fish acclimated to
15 degrees C) by performing continuous infusions of 6-[3H]glucose and
1-[14C]palmitate in vivo. Results show that hypoxia causes a 53% decrease
in NEFA turnover rate, together with a transient increase in hepatic
glucose production, whereas a rapid drop in temperature induces equivalent
declines in glucose, NEFA, and oxygen fluxes [temperature coefficient
approximately equal to 2]. More importantly, kinetic changes in glucose and
NEFA fluxes are not accompanied by interpretable changes in the plasma
concentrations of these metabolites. Thus using concentration changes to
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Biology Department, University of Ottawa, Ontario, Canada.
Oxygen levels and temperature can fluctuate rapidly in aquatic
environments. Ever though the effects of environmental stresses on fish
metabolism have been studied extensively, information on fue kinetics is
extremely limited because it relies almost exclusively on changes in
substrate concentrations. The turnover rate of nonesterified fatty acids
(NEFA) has never been measured in fish. Therefore, our goal was to quantify
glucose and NEFA fluxes in rainbow trout acutely exposed to severe hypoxia
(25% O2 saturation) or low temperature (6 degrees C for fish acclimated to
15 degrees C) by performing continuous infusions of 6-[3H]glucose and
1-[14C]palmitate in vivo. Results show that hypoxia causes a 53% decrease
in NEFA turnover rate, together with a transient increase in hepatic
glucose production, whereas a rapid drop in temperature induces equivalent
declines in glucose, NEFA, and oxygen fluxes [temperature coefficient
approximately equal to 2]. More importantly, kinetic changes in glucose and
NEFA fluxes are not accompanied by interpretable changes in the plasma
concentrations of these metabolites. Thus using concentration changes to
draw conclusions about fluxes must be avoided.</abstract><pmid>9435660</pmid><doi>10.1152/ajpregu.1997.273.6.R2046</doi></addata></record> |
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| identifier | ISSN: 0363-6119 |
| ispartof | American journal of physiology. Regulatory, integrative and comparative physiology, 1997-12, Vol.273 (6), p.2046-R2054 |
| issn | 0363-6119 1522-1490 |
| language | eng |
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| source | American Physiological Society Free |
| title | Effects of hypoxia and low temperature on substrate fluxes in fish: plasma metabolite concentrations are misleading |
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