Glucose Homeostasis and Sympathoadrenal Activity in Mercaptoacetate-Treated Rats

Gertjan van Dijk; Anton Scheurink; Sue Ritter; Anton Steffens

doi:10.1016/0031-9384(94)00323-8

Glucose Homeostasis and Sympathoadrenal Activity in Mercaptoacetate-Treated Rats

Gertjan van Dijk, Anton Scheurink, Sue Ritter, Anton Steffens

Research output: Contribution to journal › Article › Academic › peer-review

24 Citations (Scopus)

Abstract

The effect of the fatty acid oxidation inhibitor, sodium mercaptoacetate (MA, 600 µmol/kg) on peripheral energy substrate metabolism was investigated in rats with permanent heart catheters. Rats were either fed, 48-h food deprived, or exercising for 30 min. Before and after intravenous MA injection, stress-free blood samples were taken for measurement of blood glucose, plasma free fatty acids (FFA), insulin, epinephrine (E), and norepinephrine (NE) concentrations. In fed animals, MA increased blood glucose, plasma FFA, and NE and decreased insulin concentrations. Plasma E levels did not change. In 48-h-deprived animals, MA elevated low baseline glucose concentrations to levels observed in MA-treated fed animals. Plasma insulin concentrations decreased to almost undetectable levels. Plasma catecholamines and FFA were increased compared to fed rats. In exercising rats, MA caused an exaggerated increase of blood glucose and a pronounced reduction of plasma insulin without affecting exercise-induced FFA and catecholamine responses. The data revealed that the mechanisms that regulate blood glucose concentrations during MA treatment are dependent on the nutritional state and ambient energy expenditure.

Original language	English
Pages (from-to)	759-764
Number of pages	6
Journal	Physiology & Behavior
Volume	57
Issue number	4
DOIs	https://doi.org/10.1016/0031-9384(94)00323-8
Publication status	Published - Apr-1995

Keywords

MERCAPTOACETATE (MA)
LIPOPRIVATION
FREE FATTY ACIDS (FFA)
GLUCOSE
EPINEPHRINE
NOREPINEPHRINE
EXERCISE
INSULIN
FOOD DEPRIVATION
INSULIN-SECRETION
EXERCISING RATS
NERVOUS-SYSTEM
CATECHOLAMINES
2-MERCAPTOACETATE
STIMULATION
INHIBITION
METABOLISM
RESPONSES
STRESS

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title = "Glucose Homeostasis and Sympathoadrenal Activity in Mercaptoacetate-Treated Rats",

abstract = "The effect of the fatty acid oxidation inhibitor, sodium mercaptoacetate (MA, 600 µmol/kg) on peripheral energy substrate metabolism was investigated in rats with permanent heart catheters. Rats were either fed, 48-h food deprived, or exercising for 30 min. Before and after intravenous MA injection, stress-free blood samples were taken for measurement of blood glucose, plasma free fatty acids (FFA), insulin, epinephrine (E), and norepinephrine (NE) concentrations. In fed animals, MA increased blood glucose, plasma FFA, and NE and decreased insulin concentrations. Plasma E levels did not change. In 48-h-deprived animals, MA elevated low baseline glucose concentrations to levels observed in MA-treated fed animals. Plasma insulin concentrations decreased to almost undetectable levels. Plasma catecholamines and FFA were increased compared to fed rats. In exercising rats, MA caused an exaggerated increase of blood glucose and a pronounced reduction of plasma insulin without affecting exercise-induced FFA and catecholamine responses. The data revealed that the mechanisms that regulate blood glucose concentrations during MA treatment are dependent on the nutritional state and ambient energy expenditure.",

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author = "Dijk, {Gertjan van} and Anton Scheurink and Sue Ritter and Anton Steffens",

note = "Relation: http://www.rug.nl/fwn/onderzoek/programmas/cbn/index Rights: University of Groningen, Centre for Behaviour and Neurosciences",

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AU - Dijk, Gertjan van

AU - Scheurink, Anton

AU - Ritter, Sue

AU - Steffens, Anton

N1 - Relation: http://www.rug.nl/fwn/onderzoek/programmas/cbn/index Rights: University of Groningen, Centre for Behaviour and Neurosciences

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N2 - The effect of the fatty acid oxidation inhibitor, sodium mercaptoacetate (MA, 600 µmol/kg) on peripheral energy substrate metabolism was investigated in rats with permanent heart catheters. Rats were either fed, 48-h food deprived, or exercising for 30 min. Before and after intravenous MA injection, stress-free blood samples were taken for measurement of blood glucose, plasma free fatty acids (FFA), insulin, epinephrine (E), and norepinephrine (NE) concentrations. In fed animals, MA increased blood glucose, plasma FFA, and NE and decreased insulin concentrations. Plasma E levels did not change. In 48-h-deprived animals, MA elevated low baseline glucose concentrations to levels observed in MA-treated fed animals. Plasma insulin concentrations decreased to almost undetectable levels. Plasma catecholamines and FFA were increased compared to fed rats. In exercising rats, MA caused an exaggerated increase of blood glucose and a pronounced reduction of plasma insulin without affecting exercise-induced FFA and catecholamine responses. The data revealed that the mechanisms that regulate blood glucose concentrations during MA treatment are dependent on the nutritional state and ambient energy expenditure.

AB - The effect of the fatty acid oxidation inhibitor, sodium mercaptoacetate (MA, 600 µmol/kg) on peripheral energy substrate metabolism was investigated in rats with permanent heart catheters. Rats were either fed, 48-h food deprived, or exercising for 30 min. Before and after intravenous MA injection, stress-free blood samples were taken for measurement of blood glucose, plasma free fatty acids (FFA), insulin, epinephrine (E), and norepinephrine (NE) concentrations. In fed animals, MA increased blood glucose, plasma FFA, and NE and decreased insulin concentrations. Plasma E levels did not change. In 48-h-deprived animals, MA elevated low baseline glucose concentrations to levels observed in MA-treated fed animals. Plasma insulin concentrations decreased to almost undetectable levels. Plasma catecholamines and FFA were increased compared to fed rats. In exercising rats, MA caused an exaggerated increase of blood glucose and a pronounced reduction of plasma insulin without affecting exercise-induced FFA and catecholamine responses. The data revealed that the mechanisms that regulate blood glucose concentrations during MA treatment are dependent on the nutritional state and ambient energy expenditure.

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KW - FOOD DEPRIVATION

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KW - NERVOUS-SYSTEM

KW - CATECHOLAMINES

KW - 2-MERCAPTOACETATE

KW - STIMULATION

KW - INHIBITION

KW - METABOLISM

KW - RESPONSES

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U2 - 10.1016/0031-9384(94)00323-8

DO - 10.1016/0031-9384(94)00323-8

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EP - 764

JO - Physiology & Behavior

JF - Physiology & Behavior

IS - 4

ER -

Glucose Homeostasis and Sympathoadrenal Activity in Mercaptoacetate-Treated Rats

Abstract

Keywords

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