Metabolic aspects of insulin resistance in individuals born small for gestational age

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Standard

Metabolic aspects of insulin resistance in individuals born small for gestational age. / Vaag, A; Jensen, C Bjørn; Poulsen, P; Brøns, C; Pilgaard, K; Grunnet, L; Vielwerth, S; Alibegovic, A.

In: Hormone Research, Vol. 65 Suppl 3, 2006, p. 137-43.

Research output: Contribution to journalReviewResearchpeer-review

Harvard

Vaag, A, Jensen, CB, Poulsen, P, Brøns, C, Pilgaard, K, Grunnet, L, Vielwerth, S & Alibegovic, A 2006, 'Metabolic aspects of insulin resistance in individuals born small for gestational age', Hormone Research, vol. 65 Suppl 3, pp. 137-43. https://doi.org/10.1159/000091519

APA

Vaag, A., Jensen, C. B., Poulsen, P., Brøns, C., Pilgaard, K., Grunnet, L., Vielwerth, S., & Alibegovic, A. (2006). Metabolic aspects of insulin resistance in individuals born small for gestational age. Hormone Research, 65 Suppl 3, 137-43. https://doi.org/10.1159/000091519

Vancouver

Vaag A, Jensen CB, Poulsen P, Brøns C, Pilgaard K, Grunnet L et al. Metabolic aspects of insulin resistance in individuals born small for gestational age. Hormone Research. 2006;65 Suppl 3:137-43. https://doi.org/10.1159/000091519

Author

Vaag, A ; Jensen, C Bjørn ; Poulsen, P ; Brøns, C ; Pilgaard, K ; Grunnet, L ; Vielwerth, S ; Alibegovic, A. / Metabolic aspects of insulin resistance in individuals born small for gestational age. In: Hormone Research. 2006 ; Vol. 65 Suppl 3. pp. 137-43.

Bibtex

@article{672dcfb6176849b284e8e4acc3b951a6,
title = "Metabolic aspects of insulin resistance in individuals born small for gestational age",
abstract = "Numerous studies have shown an association between low weight at birth and being born small for gestational age (SGA) on the one hand and risk of developing insulin resistance and type 2 diabetes on the other. Our studies in twins have indicated a non-genetic age-dependent origin of insulin resistance and type 2 diabetes associated with being born SGA. In order to gain insight into the molecular metabolic defects and mechanisms linking SGA with insulin resistance and type 2 diabetes, we performed a series of experiments in young and elderly twins, and, in particular, in young men (aged 19-23 years) with a weight at birth at term in the lowest 10th percentile with no family history of diabetes. The control group included age-matched men with birth weights at term in the upper normal range. While body mass index and waist-to-hip ratios were similar in the individuals born SGA and controls, dual-energy X-ray absorptiometry studies documented a higher degree of abdominal obesity in the men who had a low weight at birth. Using the gold standard hyperinsulinaemic-euglycaemic clamp technique combined with glucose tracers and studies of forearm glucose uptake, we found an impairment of insulin-stimulated glycolytic flux and reduced forearm (muscle) glucose uptake in the face of normal whole-body glucose uptake. In addition, we found a significantly decreased insulin secretion rate during oral glucose ingestion after correction for insulin action (disposition index), a paradoxical enhanced insulin suppression of hepatic glucose production and lower fasting plasma glycerol levels, suggesting impaired lipolysis. Finally, analysis of skeletal muscle biopsies showed reduced muscle expression of several key proteins involved in insulin signalling and glucose transport, including protein kinase C-zeta, the two subunits of phosphoinositol 3-kinase (i.e., p85alpha and p110beta) and the insulin-sensitive glucose transporter, Glut-4, in individuals of low birth weight. In conclusion, being born SGA and of low birth weight is associated with type 2 diabetes in a non-genetic manner, and programming of muscle insulin action and signalling represents an early mechanism responsible for this association.",
keywords = "Adipose Tissue/metabolism, Adult, Diabetes Mellitus, Type 2/physiopathology, Female, Glucose/metabolism, Homeostasis, Humans, Infant, Newborn, Infant, Small for Gestational Age/physiology, Insulin Resistance/physiology, Liver/metabolism, Male, Muscle, Skeletal/metabolism, Pregnancy, Twin Studies as Topic",
author = "A Vaag and Jensen, {C Bj{\o}rn} and P Poulsen and C Br{\o}ns and K Pilgaard and L Grunnet and S Vielwerth and A Alibegovic",
note = "Copyright 2006 S. Karger AG, Basel.",
year = "2006",
doi = "10.1159/000091519",
language = "English",
volume = "65 Suppl 3",
pages = "137--43",
journal = "Hormone Research",
issn = "0301-0163",
publisher = "S./Karger AG",

}

RIS

TY - JOUR

T1 - Metabolic aspects of insulin resistance in individuals born small for gestational age

AU - Vaag, A

AU - Jensen, C Bjørn

AU - Poulsen, P

AU - Brøns, C

AU - Pilgaard, K

AU - Grunnet, L

AU - Vielwerth, S

AU - Alibegovic, A

N1 - Copyright 2006 S. Karger AG, Basel.

PY - 2006

Y1 - 2006

N2 - Numerous studies have shown an association between low weight at birth and being born small for gestational age (SGA) on the one hand and risk of developing insulin resistance and type 2 diabetes on the other. Our studies in twins have indicated a non-genetic age-dependent origin of insulin resistance and type 2 diabetes associated with being born SGA. In order to gain insight into the molecular metabolic defects and mechanisms linking SGA with insulin resistance and type 2 diabetes, we performed a series of experiments in young and elderly twins, and, in particular, in young men (aged 19-23 years) with a weight at birth at term in the lowest 10th percentile with no family history of diabetes. The control group included age-matched men with birth weights at term in the upper normal range. While body mass index and waist-to-hip ratios were similar in the individuals born SGA and controls, dual-energy X-ray absorptiometry studies documented a higher degree of abdominal obesity in the men who had a low weight at birth. Using the gold standard hyperinsulinaemic-euglycaemic clamp technique combined with glucose tracers and studies of forearm glucose uptake, we found an impairment of insulin-stimulated glycolytic flux and reduced forearm (muscle) glucose uptake in the face of normal whole-body glucose uptake. In addition, we found a significantly decreased insulin secretion rate during oral glucose ingestion after correction for insulin action (disposition index), a paradoxical enhanced insulin suppression of hepatic glucose production and lower fasting plasma glycerol levels, suggesting impaired lipolysis. Finally, analysis of skeletal muscle biopsies showed reduced muscle expression of several key proteins involved in insulin signalling and glucose transport, including protein kinase C-zeta, the two subunits of phosphoinositol 3-kinase (i.e., p85alpha and p110beta) and the insulin-sensitive glucose transporter, Glut-4, in individuals of low birth weight. In conclusion, being born SGA and of low birth weight is associated with type 2 diabetes in a non-genetic manner, and programming of muscle insulin action and signalling represents an early mechanism responsible for this association.

AB - Numerous studies have shown an association between low weight at birth and being born small for gestational age (SGA) on the one hand and risk of developing insulin resistance and type 2 diabetes on the other. Our studies in twins have indicated a non-genetic age-dependent origin of insulin resistance and type 2 diabetes associated with being born SGA. In order to gain insight into the molecular metabolic defects and mechanisms linking SGA with insulin resistance and type 2 diabetes, we performed a series of experiments in young and elderly twins, and, in particular, in young men (aged 19-23 years) with a weight at birth at term in the lowest 10th percentile with no family history of diabetes. The control group included age-matched men with birth weights at term in the upper normal range. While body mass index and waist-to-hip ratios were similar in the individuals born SGA and controls, dual-energy X-ray absorptiometry studies documented a higher degree of abdominal obesity in the men who had a low weight at birth. Using the gold standard hyperinsulinaemic-euglycaemic clamp technique combined with glucose tracers and studies of forearm glucose uptake, we found an impairment of insulin-stimulated glycolytic flux and reduced forearm (muscle) glucose uptake in the face of normal whole-body glucose uptake. In addition, we found a significantly decreased insulin secretion rate during oral glucose ingestion after correction for insulin action (disposition index), a paradoxical enhanced insulin suppression of hepatic glucose production and lower fasting plasma glycerol levels, suggesting impaired lipolysis. Finally, analysis of skeletal muscle biopsies showed reduced muscle expression of several key proteins involved in insulin signalling and glucose transport, including protein kinase C-zeta, the two subunits of phosphoinositol 3-kinase (i.e., p85alpha and p110beta) and the insulin-sensitive glucose transporter, Glut-4, in individuals of low birth weight. In conclusion, being born SGA and of low birth weight is associated with type 2 diabetes in a non-genetic manner, and programming of muscle insulin action and signalling represents an early mechanism responsible for this association.

KW - Adipose Tissue/metabolism

KW - Adult

KW - Diabetes Mellitus, Type 2/physiopathology

KW - Female

KW - Glucose/metabolism

KW - Homeostasis

KW - Humans

KW - Infant, Newborn

KW - Infant, Small for Gestational Age/physiology

KW - Insulin Resistance/physiology

KW - Liver/metabolism

KW - Male

KW - Muscle, Skeletal/metabolism

KW - Pregnancy

KW - Twin Studies as Topic

U2 - 10.1159/000091519

DO - 10.1159/000091519

M3 - Review

C2 - 16612127

VL - 65 Suppl 3

SP - 137

EP - 143

JO - Hormone Research

JF - Hormone Research

SN - 0301-0163

ER -

ID: 210980625