The Effect of Insulin Supression on Postprandial Nutrient Metabolism: Studies with infusion of somatostatin and insulin

K C  MCHARDY; M A  MCNURLAN; Eric Milne; Alexander Graham Calder; L M  FEARNS; J  BROOM; P J  GARLICK

The Effect of Insulin Supression on Postprandial Nutrient Metabolism: Studies with infusion of somatostatin and insulin

K C MCHARDY
, M A MCNURLAN
, Eric Milne
, Alexander Graham Calder
, L M FEARNS
, J BROOM
, P J GARLICK

The Rowett Institute of Nutrition and Health

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

4 Citations (Web of Science)

Abstract

Utilization of fat, carbohydrate and protein before and after feeding was studied in six healthy subjects using simultaneous respiratory gas exchange measurement and [1-C-13] leucine infusion. The role of insulin was investigated by repeating a control study with the addition of an infusion of somatostatin, a hormone which can suppress insulin release. Where near-complete insulin suppression was effected, subjects were studied on a third occasion with the further addition of exogenous insulin infusion. The normal switch on feeding from fat to carbohydrate as principal energy source was reproduced at insulin levels of only 17%-33% of control values, which were inadequate to prevent hyperglycaemia. At fed levels below 10%, a fat-predominant pattern persisted unless insulin was infused. Protein degradation was reduced and synthesis unaffected by feeding, regardless of insulin concentration. Leucine oxidation was dependent on its plasma concentration in the presence of circulating insulin. Thus insulin appears to be necessary for the normal switch to carbohydrate oxidation on feeding but not for postprandial changes in protein metabolism.

Original language	English
Pages (from-to)	515-526
Number of pages	12
Journal	European Journal of Clinical Nutrition
Volume	45
Issue number	11
Publication status	Published - Nov 1991

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

muscle protein-synthesis
whole-body leucine
amino-acids
postabsorptive rats
glucose-oxidation
diabetic-patients
oral glucose
secretion
carbohydrate
hyperinsulinemia

Cite this

@article{8dece0b175dc4279899597f781ad8609,

title = "The Effect of Insulin Supression on Postprandial Nutrient Metabolism: Studies with infusion of somatostatin and insulin",

abstract = "Utilization of fat, carbohydrate and protein before and after feeding was studied in six healthy subjects using simultaneous respiratory gas exchange measurement and [1-C-13] leucine infusion. The role of insulin was investigated by repeating a control study with the addition of an infusion of somatostatin, a hormone which can suppress insulin release. Where near-complete insulin suppression was effected, subjects were studied on a third occasion with the further addition of exogenous insulin infusion. The normal switch on feeding from fat to carbohydrate as principal energy source was reproduced at insulin levels of only 17\%-33\% of control values, which were inadequate to prevent hyperglycaemia. At fed levels below 10\%, a fat-predominant pattern persisted unless insulin was infused. Protein degradation was reduced and synthesis unaffected by feeding, regardless of insulin concentration. Leucine oxidation was dependent on its plasma concentration in the presence of circulating insulin. Thus insulin appears to be necessary for the normal switch to carbohydrate oxidation on feeding but not for postprandial changes in protein metabolism.",

keywords = "muscle protein-synthesis, whole-body leucine, amino-acids, postabsorptive rats, glucose-oxidation, diabetic-patients, oral glucose, secretion, carbohydrate, hyperinsulinemia",

author = "MCHARDY, \{K C\} and MCNURLAN, \{M A\} and Eric Milne and Calder, \{Alexander Graham\} and FEARNS, \{L M\} and J BROOM and GARLICK, \{P J\}",

year = "1991",

month = nov,

language = "English",

volume = "45",

pages = "515--526",

journal = "European Journal of Clinical Nutrition",

issn = "0954-3007",

publisher = "Springer Nature",

number = "11",

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TY - JOUR

T1 - The Effect of Insulin Supression on Postprandial Nutrient Metabolism

T2 - Studies with infusion of somatostatin and insulin

AU - MCHARDY, K C

AU - MCNURLAN, M A

AU - Milne, Eric

AU - Calder, Alexander Graham

AU - FEARNS, L M

AU - BROOM, J

AU - GARLICK, P J

PY - 1991/11

Y1 - 1991/11

N2 - Utilization of fat, carbohydrate and protein before and after feeding was studied in six healthy subjects using simultaneous respiratory gas exchange measurement and [1-C-13] leucine infusion. The role of insulin was investigated by repeating a control study with the addition of an infusion of somatostatin, a hormone which can suppress insulin release. Where near-complete insulin suppression was effected, subjects were studied on a third occasion with the further addition of exogenous insulin infusion. The normal switch on feeding from fat to carbohydrate as principal energy source was reproduced at insulin levels of only 17%-33% of control values, which were inadequate to prevent hyperglycaemia. At fed levels below 10%, a fat-predominant pattern persisted unless insulin was infused. Protein degradation was reduced and synthesis unaffected by feeding, regardless of insulin concentration. Leucine oxidation was dependent on its plasma concentration in the presence of circulating insulin. Thus insulin appears to be necessary for the normal switch to carbohydrate oxidation on feeding but not for postprandial changes in protein metabolism.

AB - Utilization of fat, carbohydrate and protein before and after feeding was studied in six healthy subjects using simultaneous respiratory gas exchange measurement and [1-C-13] leucine infusion. The role of insulin was investigated by repeating a control study with the addition of an infusion of somatostatin, a hormone which can suppress insulin release. Where near-complete insulin suppression was effected, subjects were studied on a third occasion with the further addition of exogenous insulin infusion. The normal switch on feeding from fat to carbohydrate as principal energy source was reproduced at insulin levels of only 17%-33% of control values, which were inadequate to prevent hyperglycaemia. At fed levels below 10%, a fat-predominant pattern persisted unless insulin was infused. Protein degradation was reduced and synthesis unaffected by feeding, regardless of insulin concentration. Leucine oxidation was dependent on its plasma concentration in the presence of circulating insulin. Thus insulin appears to be necessary for the normal switch to carbohydrate oxidation on feeding but not for postprandial changes in protein metabolism.

KW - muscle protein-synthesis

KW - whole-body leucine

KW - amino-acids

KW - postabsorptive rats

KW - glucose-oxidation

KW - diabetic-patients

KW - oral glucose

KW - secretion

KW - carbohydrate

KW - hyperinsulinemia

M3 - Article

SN - 0954-3007

VL - 45

SP - 515

EP - 526

JO - European Journal of Clinical Nutrition

JF - European Journal of Clinical Nutrition

IS - 11

ER -

The Effect of Insulin Supression on Postprandial Nutrient Metabolism: Studies with infusion of somatostatin and insulin

Abstract

UN SDGs

Keywords

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