Literature DB >> 24570141

Young men with low birthweight exhibit decreased plasticity of genome-wide muscle DNA methylation by high-fat overfeeding.

Stine C Jacobsen1, Linn Gillberg, Jette Bork-Jensen, Rasmus Ribel-Madsen, Ester Lara, Vincenzo Calvanese, Charlotte Ling, Agustin F Fernandez, Mario F Fraga, Pernille Poulsen, Charlotte Brøns, Allan Vaag.   

Abstract

AIMS/HYPOTHESIS: The association between low birthweight (LBW) and risk of developing type 2 diabetes may involve epigenetic mechanisms, with skeletal muscle being a prime target tissue. Differential DNA methylation patterns have been observed in single genes in muscle tissue from type 2 diabetic and LBW individuals, and we recently showed multiple DNA methylation changes during short-term high-fat overfeeding in muscle of healthy people. In a randomised crossover study, we analysed genome-wide DNA promoter methylation in skeletal muscle of 17 young LBW men and 23 matched normal birthweight (NBW) men after a control and a 5 day high-fat overfeeding diet.
METHODS: DNA methylation was measured using Illumina's Infinium BeadArray covering 27,578 CpG sites representing 14,475 different genes.
RESULTS: After correction for multiple comparisons, DNA methylation levels were found to be similar in the LBW and NBW groups during the control diet. Whereas widespread DNA methylation changes were observed in the NBW group in response to high-fat overfeeding, only a few methylation changes were seen in the LBW group (χ(2), p < 0.001). CONCLUSIONS/
INTERPRETATION: Our results indicate lower DNA methylation plasticity in skeletal muscle from LBW vs NBW men, potentially contributing to understanding the link between LBW and increased risk of type 2 diabetes.

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Year:  2014        PMID: 24570141     DOI: 10.1007/s00125-014-3198-8

Source DB:  PubMed          Journal:  Diabetologia        ISSN: 0012-186X            Impact factor:   10.122


  10 in total

1.  Birth weight and subsequent risk of type 2 diabetes: a meta-analysis.

Authors:  Thomas Harder; Elke Rodekamp; Karen Schellong; Joachim W Dudenhausen; Andreas Plagemann
Journal:  Am J Epidemiol       Date:  2007-01-10       Impact factor: 4.897

2.  Effects of high-fat overfeeding on mitochondrial function, glucose and fat metabolism, and adipokine levels in low-birth-weight subjects.

Authors:  Charlotte Brøns; Stine Jacobsen; Natalie Hiscock; Andrew White; Emma Nilsson; David Dunger; Arne Astrup; Bjørn Quistorff; Allan Vaag
Journal:  Am J Physiol Endocrinol Metab       Date:  2011-09-13       Impact factor: 4.310

Review 3.  Epigenetic flexibility in metabolic regulation: disease cause and prevention?

Authors:  Henriette Kirchner; Megan E Osler; Anna Krook; Juleen R Zierath
Journal:  Trends Cell Biol       Date:  2012-12-29       Impact factor: 20.808

4.  Deoxyribonucleic acid methylation and gene expression of PPARGC1A in human muscle is influenced by high-fat overfeeding in a birth-weight-dependent manner.

Authors:  Charlotte Brøns; Stine Jacobsen; Emma Nilsson; Tina Rönn; Christine B Jensen; Heidi Storgaard; Pernille Poulsen; Leif Groop; Charlotte Ling; Arne Astrup; Allan Vaag
Journal:  J Clin Endocrinol Metab       Date:  2010-04-21       Impact factor: 5.958

5.  Weight loss after gastric bypass surgery in human obesity remodels promoter methylation.

Authors:  Romain Barres; Henriette Kirchner; Morten Rasmussen; Jie Yan; Francisc R Kantor; Anna Krook; Erik Näslund; Juleen R Zierath
Journal:  Cell Rep       Date:  2013-04-11       Impact factor: 9.423

Review 6.  The emerging genetic architecture of type 2 diabetes.

Authors:  Alessandro Doria; Mary-Elizabeth Patti; C Ronald Kahn
Journal:  Cell Metab       Date:  2008-09       Impact factor: 27.287

7.  Effects of short-term high-fat overfeeding on genome-wide DNA methylation in the skeletal muscle of healthy young men.

Authors:  S C Jacobsen; C Brøns; J Bork-Jensen; R Ribel-Madsen; B Yang; E Lara; E Hall; V Calvanese; E Nilsson; S W Jørgensen; S Mandrup; C Ling; A F Fernandez; M F Fraga; P Poulsen; A Vaag
Journal:  Diabetologia       Date:  2012-09-08       Impact factor: 10.122

8.  DNA methylation differences after exposure to prenatal famine are common and timing- and sex-specific.

Authors:  Elmar W Tobi; L H Lumey; Rudolf P Talens; Dennis Kremer; Hein Putter; Aryeh D Stein; P Eline Slagboom; Bastiaan T Heijmans
Journal:  Hum Mol Genet       Date:  2009-08-04       Impact factor: 6.150

9.  Non-CpG methylation of the PGC-1alpha promoter through DNMT3B controls mitochondrial density.

Authors:  Romain Barrès; Megan E Osler; Jie Yan; Anna Rune; Tomas Fritz; Kenneth Caidahl; Anna Krook; Juleen R Zierath
Journal:  Cell Metab       Date:  2009-09       Impact factor: 27.287

10.  Genome-wide analysis of DNA methylation differences in muscle and fat from monozygotic twins discordant for type 2 diabetes.

Authors:  Rasmus Ribel-Madsen; Mario F Fraga; Stine Jacobsen; Jette Bork-Jensen; Ester Lara; Vincenzo Calvanese; Agustin F Fernandez; Martin Friedrichsen; Birgitte F Vind; Kurt Højlund; Henning Beck-Nielsen; Manel Esteller; Allan Vaag; Pernille Poulsen
Journal:  PLoS One       Date:  2012-12-10       Impact factor: 3.240
  10 in total
  29 in total

1.  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
Journal:  Eur J Nutr       Date:  2015-08-22       Impact factor: 5.614

2.  Adipose tissue transcriptomics and epigenomics in low birthweight men and controls: role of high-fat overfeeding.

Authors:  Linn Gillberg; Alexander Perfilyev; Charlotte Brøns; Martin Thomasen; Louise G Grunnet; Petr Volkov; Fredrik Rosqvist; David Iggman; Ingrid Dahlman; Ulf Risérus; Tina Rönn; Emma Nilsson; Allan Vaag; Charlotte Ling
Journal:  Diabetologia       Date:  2016-01-11       Impact factor: 10.122

Review 3.  Dietary Fat and the Genetic Risk of Type 2 Diabetes.

Authors:  Germán D Carrasquilla; Hermina Jakupović; Tuomas O Kilpeläinen
Journal:  Curr Diab Rep       Date:  2019-11-04       Impact factor: 4.810

Review 4.  Epigenetics and Type 2 Diabetes Risk.

Authors:  Sangeeta Dhawan; Rama Natarajan
Journal:  Curr Diab Rep       Date:  2019-06-27       Impact factor: 4.810

5.  Epigenetic programming of adipose-derived stem cells in low birthweight individuals.

Authors:  Christa Broholm; Anders H Olsson; Alexander Perfilyev; Ninna S Hansen; Maren Schrölkamp; Klaudia S Strasko; Camilla Scheele; Rasmus Ribel-Madsen; Brynjulf Mortensen; Sine W Jørgensen; Charlotte Ling; Allan Vaag
Journal:  Diabetologia       Date:  2016-09-14       Impact factor: 10.122

Review 6.  The importance of gene-environment interactions in human obesity.

Authors:  Hudson Reddon; Jean-Louis Guéant; David Meyre
Journal:  Clin Sci (Lond)       Date:  2016-09-01       Impact factor: 6.124

Review 7.  Epigenetic reprogramming in metabolic disorders: nutritional factors and beyond.

Authors:  Zhiyong Cheng; Louise Zheng; Fabio A Almeida
Journal:  J Nutr Biochem       Date:  2017-10-23       Impact factor: 6.048

Review 8.  From fatalism to mitigation: A conceptual framework for mitigating fetal programming of chronic disease by maternal obesity.

Authors:  Janne Boone-Heinonen; Lynne C Messer; Stephen P Fortmann; Lawrence Wallack; Kent L Thornburg
Journal:  Prev Med       Date:  2015-10-30       Impact factor: 4.018

Review 9.  The potential use of DNA methylation biomarkers to identify risk and progression of type 2 diabetes.

Authors:  Linn Gillberg; Charlotte Ling
Journal:  Front Endocrinol (Lausanne)       Date:  2015-03-30       Impact factor: 5.555

Review 10.  Developmental programming: State-of-the-science and future directions-Summary from a Pennington Biomedical symposium.

Authors:  Elizabeth F Sutton; L Anne Gilmore; David B Dunger; Bas T Heijmans; Marie-France Hivert; Charlotte Ling; J Alfredo Martinez; Susan E Ozanne; Rebecca A Simmons; Moshe Szyf; Robert A Waterland; Leanne M Redman; Eric Ravussin
Journal:  Obesity (Silver Spring)       Date:  2016-04-01       Impact factor: 5.002
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