Staples 2010 Abstract IOC60: Difference between revisions
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{{ | {{Abstract | ||
|title=Staples | |title=Staples JF, Chung DJ, Armstrong C (2010) Fast in, slow out: Kinetics of mitochondrial metabolic suppression during hibernation entrance and arousal. MiPNet15.10. | ||
|authors=Staples JF, James F, Chung DJ, Armstrong C | |||
|authors=Staples, James F | |||
|year=2010 | |year=2010 | ||
| | |event=MiPNet15.10_IOC60 | ||
|abstract=During entrance into a torpor bout the whole-animal metabolic rate of mammalian hibernators can decrease by up to 100-fold within a matter of hours. This metabolic suppression corresponds with a rapid decrease in succinate-fuelled | |abstract=During entrance into a [[torpor]] bout the whole-animal metabolic rate of mammalian hibernators can decrease by up to 100-fold within a matter of hours. This metabolic suppression corresponds with a rapid decrease in succinate-fuelled State 3 respiration rates of liver mitochondria, measured at 37 Β°C. When isolated from 13-lined ground squirrel (''Ictodomys tridecemlineatus'') in early entrance (''T''b=30 Β°C), respiration decreased by 61% compared with interbout euthermia. Respiration did not decline further in late entrance (''T''b=15 Β°C) or steady-state torpor (''T''b=5 Β°C). In contrast, during early arousal (''T''b=15 Β°C), despite rapid increases in metabolic rate, State 3 respiration did not increase significantly from torpor levels. By the time ''T''b reached 30 Β°C in late arousal, however, respiration was 3-fold higher than torpor and continued to increase gradually, so that in interbout euthermia it was 6-fold higher than torpor and not significantly different from the summer active state. Preincubation with 2 mM isocitrate (removing oxaloacetate inhibition of succinate dehydrogenase) increased respiration only in torpor and early arousal. The βfastβ initiation of mitochondrial metabolic suppression during entrance and its βslowβ reversal during arousal suggests a mechanism that requires fairly high body temperatures. | ||
|keywords= | |keywords=Hibernation, Mitochondria, Ictidomys, Ground squirrel | ||
|mipnetlab=CA London Staples JF | |||
|discipline=Mitochondrial Physiology | |||
|articletype=Workshop, MiPNet-online Publication | |||
}} | }} | ||
{{Labeling | {{Labeling | ||
|organism=Other mammals | |||
|tissues=Liver | |||
|preparations=Isolated mitochondria | |||
|enzymes=Complex II;succinate dehydrogenase | |||
|topics=Temperature | |||
|discipline=Mitochondrial Physiology | |discipline=Mitochondrial Physiology | ||
|articletype=Workshop, MiPNet-online Publication | |articletype=Workshop, MiPNet-online Publication | ||
}} | }} | ||
Latest revision as of 16:52, 27 March 2018
| Staples JF, Chung DJ, Armstrong C (2010) Fast in, slow out: Kinetics of mitochondrial metabolic suppression during hibernation entrance and arousal. MiPNet15.10. |
Link:
Staples JF, James F, Chung DJ, Armstrong C (2010)
Event: MiPNet15.10_IOC60
During entrance into a torpor bout the whole-animal metabolic rate of mammalian hibernators can decrease by up to 100-fold within a matter of hours. This metabolic suppression corresponds with a rapid decrease in succinate-fuelled State 3 respiration rates of liver mitochondria, measured at 37 Β°C. When isolated from 13-lined ground squirrel (Ictodomys tridecemlineatus) in early entrance (Tb=30 Β°C), respiration decreased by 61% compared with interbout euthermia. Respiration did not decline further in late entrance (Tb=15 Β°C) or steady-state torpor (Tb=5 Β°C). In contrast, during early arousal (Tb=15 Β°C), despite rapid increases in metabolic rate, State 3 respiration did not increase significantly from torpor levels. By the time Tb reached 30 Β°C in late arousal, however, respiration was 3-fold higher than torpor and continued to increase gradually, so that in interbout euthermia it was 6-fold higher than torpor and not significantly different from the summer active state. Preincubation with 2 mM isocitrate (removing oxaloacetate inhibition of succinate dehydrogenase) increased respiration only in torpor and early arousal. The βfastβ initiation of mitochondrial metabolic suppression during entrance and its βslowβ reversal during arousal suggests a mechanism that requires fairly high body temperatures.
β’ Keywords: Hibernation, Mitochondria, Ictidomys, Ground squirrel
β’ O2k-Network Lab: CA London Staples JF
Labels:
Organism: Other mammals
Tissue;cell: Liver
Preparation: Isolated mitochondria
Enzyme: Complex II;succinate dehydrogenase
Regulation: Temperature
