Top

European Journal of Nutrition

Published in:

01-09-2016 | Original Contribution

Disproportionately increased 24-h energy expenditure and fat oxidation in young men with low birth weight during a high-fat overfeeding challenge

Authors: Charlotte Brøns, Søren K. Lilleøre, Arne Astrup, Allan Vaag

Published in: European Journal of Nutrition | Issue 6/2016

Abstract

Background

Low birth weight (LBW) associates with increased risk of developing type 2 diabetes. LBW individuals exhibit disproportionately reduced peripheral insulin action and increased fat oxidation after a 5-day high-fat overfeeding (HFO) challenge. Furthermore, LBW men exhibit increased nocturnal fat oxidation during energy balance and low energy expenditure (EE) during fasting. We hypothesized that short-term HFO could further unmask key defects of whole-body energy metabolism in LBW men.

Methods

Eighteen LBW (2717 ± 268 g) and 26 normal birth weight (NBW) (3893 ± 207 g) healthy young men were included in a 5-day HFO (60 E % fat, +50 % calories) study. The 24-h EE, respiratory quotient and substrate oxidation rates were assessed by indirect calorimetry using respiratory chambers.

Results

After adjusting for body composition, the LBW subjects displayed increased nighttime EE (P = 0.02) compared with NBW controls during HFO. Nighttime glucose oxidation rate was decreased (P = 0.06, adjusted P = 0.05), while both adjusted 24-h (P = 0.07) and nighttime (P = 0.02) fat oxidation rate was elevated in LBW subjects. The relative contribution of fat oxidation to EE was increased in LBW compared with NBW men during the entire 24-h period (P = 0.06) and during nighttime (P = 0.03).

Conclusions

We suggest that disproportionally enhanced fat oxidation in LBW individuals during short-term HFO represents a compensatory response to reduced subcutaneous adipose tissue expandability and storage capacity. The extent to which this mechanism may lead to, or be replaced by insulin resistance, ectopic fat accumulation and/or glucose intolerance during long-term HFO in LBW needs further studies.

Alibegovic AC, Højbjerre L, Sonne MP, Van HG, Alsted TJ, Kiens B, Stallknecht B, Dela F, Vaag A (2010) Increased rate of whole body lipolysis before and after 9 days of bed rest in healthy young men born with low birth weight. Am J Physiol Endocrinol Metab 298:E555–E564CrossRef

Astrup A, Buemann B, Christensen NJ, Madsen J (1992) 24-hour energy expenditure and sympathetic activity in postobese women consuming a high-carbohydrate diet. Am J Physiol 262:E282–E288

Brøns C, Jacobsen S, Hiscock N, White A, Nilsson E, Dunger D, Astrup A, Quistorff B, Vaag A (2012) Effects of high-fat overfeeding on mitochondrial function, glucose and fat metabolism, and adipokine levels in low-birth-weight subjects. Am J Physiol Endocrinol Metab 302:E43–E51CrossRef

Brøns C, Lilleøre SK, Jensen CB, Toubro S, Vaag A, Astrup A (2013) Increased nocturnal fat oxidation in young healthy men with low birth weight: results from 24-h whole-body respiratory chamber measurements. Metabolism 62:709–716CrossRef

Brøns C, Jacobsen S, Nilsson E, Rönn T, Jensen CB, Storgaard H, Poulsen P, Groop L, Ling C, Astrup A, Vaag A (2010) Deoxyribonucleic acid methylation and gene expression of PPARGC1A in human muscle is influenced by high-fat overfeeding in a birth-weight-dependent manner. J Clin Endocrinol Metab 95:3048–3056CrossRef

Brøns C, Jensen CB, Storgaard H, Alibegovic A, Jacobsen S, Nilsson E, Astrup A, Quistorff B, Vaag A (2008) Mitochondrial function in skeletal muscle is normal and unrelated to insulin action in young men born with low birth weight. J Clin Endocrinol Metab 93:3885–3892CrossRef

Brøns C, Jensen CB, Storgaard H, Hiscock NJ, White A, Appel JS, Jacobsen S, Nilsson E, Larsen CM, Astrup A, Quistorff B, Vaag A (2009) Impact of short-term high-fat feeding on glucose and insulin metabolism in young healthy men. J Physiol 587:2387–2397CrossRef

Elia M, Livesey G (1992) Energy expenditure and fuel selection in biological systems: the theory and practice of calculations based on indirect calorimetry and tracer methods. World Rev Nutr Diet 70:68–131CrossRef

Evans MD, Cooke MS (2004) Factors contributing to the outcome of oxidative damage to nucleic acids. Bioessays 26:533–542CrossRef

10.

Gillberg L, Jacobsen SC, Ronn T, Brons C, Vaag A (2014) PPARGC1A DNA methylation in subcutaneous adipose tissue in low birth weight subjects—impact of 5 days of high-fat overfeeding. Metabolism 63:263–271CrossRef

11.

Hales CN, Barker DJ, Clark PM, Cox LJ, Fall C, Osmond C, Winter PD (1991) Fetal and infant growth and impaired glucose tolerance at age 64. BMJ 303:1019–1022CrossRef

12.

Hales CN, Barker DJP (1992) Type 2 (non-insulin-dependent) diabetes mellitus: the thrifty phenotype hypothesis. Diabetologia 35:595–601CrossRef

13.

Harder T, Rodekamp E, Schellong K, Dudenhausen JW, Plagemann A (2007) Birth weight and subsequent risk of type 2 diabetes: a meta-analysis. Am J Epidemiol 165:849–857CrossRef

14.

Højbjerre L, Alibegovic AC, Sonne MP, Dela F, Vaag A, Bruun JM, Stallknecht B (2011) Increased lipolysis but diminished gene expression of lipases in subcutaneous adipose tissue of healthy young males with intrauterine growth retardation. J Appl Physiol 111:1863–1870CrossRef

15.

Holloszy JO (2013) “Deficiency” of mitochondria in muscle does not cause insulin resistance. Diabetes 62:1036–1040CrossRef

16.

Jacobsen SC, Gillberg L, Bork-Jensen J, Ribel-Madsen R, Lara E, Calvanese V, Ling C, Fernandez AF, Fraga MF, Poulsen P, Brons C, Vaag A (2014) Young men with low birthweight exhibit decreased plasticity of genome-wide muscle DNA methylation by high-fat overfeeding. Diabetologia 57:1154–1158CrossRef

17.

Jørgensen SW, Brons C, Bluck L, Hjort L, Faerch K, Thankamony A, Gillberg L, Friedrichsen M, Dunger DB, Vaag AA (2015) Metabolic response to 36 hours of fasting in young men born small vs appropriate for gestational age. Diabetologia 58:178–187CrossRef

18.

Jumpertz R, Hanson RL, Sievers ML, Bennett PH, Nelson RG, Krakoff J (2011) Higher energy expenditure in humans predicts natural mortality. J Clin Endocrinol Metab 96:E972–E976CrossRef

19.

Koves TR, Ussher JR, Noland RC, Slentz D, Mosedale M, Ilkayeva O, Bain J, Stevens R, Dyck JR, Newgard CB, Lopaschuk GD, Muoio DM (2008) Mitochondrial overload and incomplete fatty acid oxidation contribute to skeletal muscle insulin resistance. Cell Metab 7:45–56CrossRef

20.

Lowell BB, Shulman GI (2005) Mitochondrial dysfunction and type 2 diabetes. Science 307:384–387 (New York, N Y) CrossRef

21.

Mootha VK, Lindgren CM, Eriksson KF, Subramanian A, Sihag S, Lehar J, Puigserver P, Carlsson E, Ridderstrale M, Laurila E, Houstis N, Daly MJ, Patterson N, Mesirov JP, Golub TR, Tamayo P, Spiegelman B, Lander ES, Hirschhorn JN, Altshuler D, Groop LC (2003) PGC-1α-responsive genes involved in oxidative phosphorylation are coordinately downregulated in human diabetes. Nat Genet 34:267–273CrossRef

22.

Ozanne S, Jensen C, Tingey K, Martin-Gronert M, Grunnet L, Brons C, Storgaard H, Vaag A (2006) Decreased protein levels of key insulin signalling molecules in adipose tissue from young men with a low birthweight—potential link to increased risk of diabetes? Diabetologia 49:2993–2999CrossRef

23.

Ozanne SE, Jensen CB, Tingey KJ, Storgaard H, Madsbad S, Vaag AA (2005) Low birthweight is associated with specific changes in muscle insulin-signalling protein expression. Diabetologia 48:547–552CrossRef

24.

Ozanne SE, Wang CL, Coleman N, Smith GD (1996) Altered muscle insulin sensitivity in the male offspring of protein-malnourished rats. Am J Physiol Endocrinol Metab 271:E1128–E1134

25.

Rasmussen EL, Malis C, Jensen CB, Jensen JE, Storgaard H, Poulsen P, Pilgaard K, Schou JH, Madsbad S, Astrup A, Vaag A (2005) Altered fat tissue distribution in young adult men who had low birth weight. Diabetes Care 28:151–153CrossRef

26.

Ravelli ACJ, van der Meulen JHP, Michels RPJ, Osmond C, Barker DJP, Hales CN, Bleker OP (1998) Glucose tolerance in adults after prenatal exposure to famine. Lancet 351:173–177CrossRef

27.

Ribel-Madsen R, Brons C, Friedrichsen M, Poulsen P, Vaag A (2011) Retinol-binding protein 4 in young men with low versus normal birth weight: physiological response to short-term overfeeding. Obesity 19:1304–1306 (Silver Spring) CrossRef

28.

Schmidt SL, Kealey EH, Horton TJ, VonKaenel S, Bessesen DH (2013) The effects of short-term overfeeding on energy expenditure and nutrient oxidation in obesity-prone and obesity-resistant individuals. Int J Obes 37:1192–1197 (Lond) CrossRef

29.

Turner N, Bruce CR, Beale SM, Hoehn KL, So T, Rolph MS, Cooney GJ (2007) Excess lipid availability increases mitochondrial fatty acid oxidative capacity in muscle: evidence against a role for reduced fatty acid oxidation in lipid-induced insulin resistance in rodents. Diabetes 56:2085–2092CrossRef

30.

Vienberg SG, Brons C, Nilsson E, Astrup A, Vaag A, Andersen B (2012) Impact of short-term high-fat feeding and insulin-stimulated FGF21 levels in subjects with low birth weight and controls. Eur J Endocrinol 167:49–57CrossRef

Title: Disproportionately increased 24-h energy expenditure and fat oxidation in young men with low birth weight during a high-fat overfeeding challenge
Authors: Charlotte Brøns
Søren K. Lilleøre
Arne Astrup
Allan Vaag
Publication date: 01-09-2016
Publisher: Springer Berlin Heidelberg
Published in: European Journal of Nutrition / Issue 6/2016
Print ISSN: 1436-6207
Electronic ISSN: 1436-6215
DOI: https://doi.org/10.1007/s00394-015-1018-7

ACC 2024 Congress Coverage

Heart Failure Video

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Disproportionately increased 24-h energy expenditure and fat oxidation in young men with low birth weight during a high-fat overfeeding challenge

Abstract

Background

Methods

Results

Conclusions

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusions

Please log in to get access to this content

Other articles of this Issue 6/2016

Energy compensation following consumption of sugar-reduced products: a randomized controlled trial

Rice bran prevents high-fat diet-induced inflammation and macrophage content in adipose tissue

Time-dependent cellular response in the liver and heart in a dietary-induced obese mouse model: the potential role of ER stress and autophagy

Cognitive effects following acute wild blueberry supplementation in 7- to 10-year-old children

In vitro fermentation of nuts results in the formation of butyrate and c9,t11 conjugated linoleic acid as chemopreventive metabolites

Main nutrient patterns are associated with prospective weight change in adults from 10 European countries

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page