Role of epinephrine for muscular glycogenolysis and pancreatic hormonal secretion in running rats

Erik Richter; B Sonne; N J Christensen; H Galbo

Role of epinephrine for muscular glycogenolysis and pancreatic hormonal secretion in running rats

Erik Richter, B Sonne, N J Christensen, H Galbo

38 Citations (Scopus)

Abstract

We have previously shown that during swimming muscular glycogen breakdown was diminished and plasma glucagon and insulin were lower and higher, respectively, in adrenodemedullated rats compared to controls. These findings might be due to a lower work intensity or higher efficiency in adrenodemedullated rats than in controls. Furthermore, they might be due to either an acute or a chronic influence of epinephrine. Rats were adrenodemedullated (DM) or sham-operated (C). They were chronically cannulated and either rested or ran in a metabolism chamber for 45 min. Running DM rats had either saline (DM-S) or epinephrine (normalizing the concentration in plasma) (DM-E) infused. During running, oxygen uptake was identical in C and DM rats. Muscular glycogen breakdown was similar in DM-E and C rats and higher than in DM-S rats. Blood glucose, lactate, and heart rate increased in C and DM-E, but not in DM-S rats. In spite of the differences in blood glucose, plasma insulin was the same in all groups and plasma glucagon increased identically in all running rats. Plasma FFA and liver glycogen were similar in all groups. In conclusion. in running rats, epinephrine exerts an acute enhancing effect on muscular glycogenolysis, glucagon secretion, and heart rate and an acute depressing effect on insulin secretion.

Original language	English
Journal	American Journal of Physiology (Consolidated)
Volume	240
Issue number	5
Pages (from-to)	E526-E532
Number of pages	7
ISSN	0002-9513
Publication status	Published - 1981

Keywords

Adrenal Medulla
Animals
Blood Glucose
Epinephrine
Glucagon
Glycogen
Insulin
Male
Muscles
Physical Exertion
Rats

Cite this

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title = "Role of epinephrine for muscular glycogenolysis and pancreatic hormonal secretion in running rats",

abstract = "We have previously shown that during swimming muscular glycogen breakdown was diminished and plasma glucagon and insulin were lower and higher, respectively, in adrenodemedullated rats compared to controls. These findings might be due to a lower work intensity or higher efficiency in adrenodemedullated rats than in controls. Furthermore, they might be due to either an acute or a chronic influence of epinephrine. Rats were adrenodemedullated (DM) or sham-operated (C). They were chronically cannulated and either rested or ran in a metabolism chamber for 45 min. Running DM rats had either saline (DM-S) or epinephrine (normalizing the concentration in plasma) (DM-E) infused. During running, oxygen uptake was identical in C and DM rats. Muscular glycogen breakdown was similar in DM-E and C rats and higher than in DM-S rats. Blood glucose, lactate, and heart rate increased in C and DM-E, but not in DM-S rats. In spite of the differences in blood glucose, plasma insulin was the same in all groups and plasma glucagon increased identically in all running rats. Plasma FFA and liver glycogen were similar in all groups. In conclusion. in running rats, epinephrine exerts an acute enhancing effect on muscular glycogenolysis, glucagon secretion, and heart rate and an acute depressing effect on insulin secretion.",

keywords = "Adrenal Medulla, Animals, Blood Glucose, Epinephrine, Glucagon, Glycogen, Insulin, Male, Muscles, Physical Exertion, Rats",

author = "Erik Richter and B Sonne and Christensen, {N J} and H Galbo",

year = "1981",

language = "English",

volume = "240",

pages = "E526--E532",

journal = "American Journal of Physiology",

issn = "0002-9513",

publisher = "American Physiological Society",

number = "5",

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TY - JOUR

T1 - Role of epinephrine for muscular glycogenolysis and pancreatic hormonal secretion in running rats

AU - Richter, Erik

AU - Sonne, B

AU - Christensen, N J

AU - Galbo, H

PY - 1981

Y1 - 1981

N2 - We have previously shown that during swimming muscular glycogen breakdown was diminished and plasma glucagon and insulin were lower and higher, respectively, in adrenodemedullated rats compared to controls. These findings might be due to a lower work intensity or higher efficiency in adrenodemedullated rats than in controls. Furthermore, they might be due to either an acute or a chronic influence of epinephrine. Rats were adrenodemedullated (DM) or sham-operated (C). They were chronically cannulated and either rested or ran in a metabolism chamber for 45 min. Running DM rats had either saline (DM-S) or epinephrine (normalizing the concentration in plasma) (DM-E) infused. During running, oxygen uptake was identical in C and DM rats. Muscular glycogen breakdown was similar in DM-E and C rats and higher than in DM-S rats. Blood glucose, lactate, and heart rate increased in C and DM-E, but not in DM-S rats. In spite of the differences in blood glucose, plasma insulin was the same in all groups and plasma glucagon increased identically in all running rats. Plasma FFA and liver glycogen were similar in all groups. In conclusion. in running rats, epinephrine exerts an acute enhancing effect on muscular glycogenolysis, glucagon secretion, and heart rate and an acute depressing effect on insulin secretion.

AB - We have previously shown that during swimming muscular glycogen breakdown was diminished and plasma glucagon and insulin were lower and higher, respectively, in adrenodemedullated rats compared to controls. These findings might be due to a lower work intensity or higher efficiency in adrenodemedullated rats than in controls. Furthermore, they might be due to either an acute or a chronic influence of epinephrine. Rats were adrenodemedullated (DM) or sham-operated (C). They were chronically cannulated and either rested or ran in a metabolism chamber for 45 min. Running DM rats had either saline (DM-S) or epinephrine (normalizing the concentration in plasma) (DM-E) infused. During running, oxygen uptake was identical in C and DM rats. Muscular glycogen breakdown was similar in DM-E and C rats and higher than in DM-S rats. Blood glucose, lactate, and heart rate increased in C and DM-E, but not in DM-S rats. In spite of the differences in blood glucose, plasma insulin was the same in all groups and plasma glucagon increased identically in all running rats. Plasma FFA and liver glycogen were similar in all groups. In conclusion. in running rats, epinephrine exerts an acute enhancing effect on muscular glycogenolysis, glucagon secretion, and heart rate and an acute depressing effect on insulin secretion.

KW - Adrenal Medulla

KW - Animals

KW - Blood Glucose

KW - Epinephrine

KW - Glucagon

KW - Glycogen

KW - Insulin

KW - Male

KW - Muscles

KW - Physical Exertion

KW - Rats

M3 - Journal article

C2 - 7015878

SN - 0002-9513

VL - 240

SP - E526-E532

JO - American Journal of Physiology

JF - American Journal of Physiology

IS - 5

ER -

Role of epinephrine for muscular glycogenolysis and pancreatic hormonal secretion in running rats

Abstract

Keywords

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