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

S C Jacobsen; Charlotte Brøns; Jette Bork-Jensen; Rasmus 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

doi:10.1007/s00125-012-2717-8

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

S C Jacobsen, Charlotte Brøns, Jette Bork-Jensen, Rasmus 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

133 Citationer (Scopus)

Abstract

Aims/hypothesis Energy-dense diets that are high in fat are associated with a risk of metabolic diseases. The underlying molecular mechanisms could involve epigenetics, as recent data show altered DNA methylation of putative type 2 diabetes candidate genes in response to high-fat diets. We examined the effect of a short-term high-fat overfeeding (HFO) diet on genome-wide DNA methylation patterns in human skeletal muscle. Methods Skeletal muscle biopsies were obtained from 21 healthy young men after ingestion of a short-term HFO diet and a control diet, in a randomised crossover setting. DNA methylation was measured in 27,578 CpG sites/14,475 genes using Illumina's Infinium Bead Array. Candidate gene expression was determined by quantitative real-time PCR. Results HFO introduced widespread DNA methylation changes affecting 6,508 genes (45%), with a maximum methylation change of 13.0 percentage points. The HFO-induced methylation changes were only partly and non-significantly reversed after 6-8weeks.Alterations inDNAmethylation levels primarily affected genes involved in inflammation, the reproductive system and cancer. Few gene expression changes were observed and these had poor correlation to DNA methylation. Conclusions/interpretation The genome-wide DNA methylation changes induced by the short-term HFO diet could have implications for our understanding of transient epigenetic regulation in humans and its contribution to the development of metabolic diseases. The slow reversibility suggests a methylation build-up with HFO, which over time may influence gene expression levels.

Originalsprog	Engelsk
Tidsskrift	Diabetologia
Vol/bind	55
Udgave nummer	12
Sider (fra-til)	3341-3349
Antal sider	9
ISSN	0012-186X
DOI	https://doi.org/10.1007/s00125-012-2717-8
Status	Udgivet - dec. 2012

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Jacobsen, S. C., Brøns, C., Bork-Jensen, J., Ribel-Madsen, R., Yang, B., Lara, E., Hall, E., Calvanese, V., Nilsson, E., Jørgensen, S. W., Mandrup, S., Ling, C., Fernandez, A. F., Fraga, M. F., Poulsen, P., & Vaag, A. (2012). Effects of short-term high-fat overfeeding on genome-wide DNA methylation in the skeletal muscle of healthy young men. Diabetologia, 55(12), 3341-3349. https://doi.org/10.1007/s00125-012-2717-8

Jacobsen, SC, Brøns, C, Bork-Jensen, J, Ribel-Madsen, R, Yang, B, Lara, E, Hall, E, Calvanese, V, Nilsson, E, Jørgensen, SW, Mandrup, S, Ling, C, Fernandez, AF, Fraga, MF, Poulsen, P & Vaag, A 2012, 'Effects of short-term high-fat overfeeding on genome-wide DNA methylation in the skeletal muscle of healthy young men', Diabetologia, bind 55, nr. 12, s. 3341-3349. https://doi.org/10.1007/s00125-012-2717-8

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abstract = "Aims/hypothesis Energy-dense diets that are high in fat are associated with a risk of metabolic diseases. The underlying molecular mechanisms could involve epigenetics, as recent data show altered DNA methylation of putative type 2 diabetes candidate genes in response to high-fat diets. We examined the effect of a short-term high-fat overfeeding (HFO) diet on genome-wide DNA methylation patterns in human skeletal muscle. Methods Skeletal muscle biopsies were obtained from 21 healthy young men after ingestion of a short-term HFO diet and a control diet, in a randomised crossover setting. DNA methylation was measured in 27,578 CpG sites/14,475 genes using Illumina's Infinium Bead Array. Candidate gene expression was determined by quantitative real-time PCR. Results HFO introduced widespread DNA methylation changes affecting 6,508 genes (45%), with a maximum methylation change of 13.0 percentage points. The HFO-induced methylation changes were only partly and non-significantly reversed after 6-8weeks.Alterations inDNAmethylation levels primarily affected genes involved in inflammation, the reproductive system and cancer. Few gene expression changes were observed and these had poor correlation to DNA methylation. Conclusions/interpretation The genome-wide DNA methylation changes induced by the short-term HFO diet could have implications for our understanding of transient epigenetic regulation in humans and its contribution to the development of metabolic diseases. The slow reversibility suggests a methylation build-up with HFO, which over time may influence gene expression levels.",

author = "Jacobsen, {S C} and Charlotte Br{\o}ns and Jette Bork-Jensen and Rasmus Ribel-Madsen and B Yang and E Lara and E Hall and V Calvanese and E Nilsson and J{\o}rgensen, {S W} and S Mandrup and C Ling and Fernandez, {A F} and Fraga, {M F} and P Poulsen and A Vaag",

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doi = "10.1007/s00125-012-2717-8",

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T1 - Effects of short-term high-fat overfeeding on genome-wide DNA methylation in the skeletal muscle of healthy young men

AU - Jacobsen, S C

AU - Brøns, Charlotte

AU - Bork-Jensen, Jette

AU - Ribel-Madsen, Rasmus

AU - Yang, B

AU - Lara, E

AU - Hall, E

AU - Calvanese, V

AU - Nilsson, E

AU - Jørgensen, S W

AU - Mandrup, S

AU - Ling, C

AU - Fernandez, A F

AU - Fraga, M F

AU - Poulsen, P

AU - Vaag, A

N1 - IHE 2012 074

PY - 2012/12

Y1 - 2012/12

N2 - Aims/hypothesis Energy-dense diets that are high in fat are associated with a risk of metabolic diseases. The underlying molecular mechanisms could involve epigenetics, as recent data show altered DNA methylation of putative type 2 diabetes candidate genes in response to high-fat diets. We examined the effect of a short-term high-fat overfeeding (HFO) diet on genome-wide DNA methylation patterns in human skeletal muscle. Methods Skeletal muscle biopsies were obtained from 21 healthy young men after ingestion of a short-term HFO diet and a control diet, in a randomised crossover setting. DNA methylation was measured in 27,578 CpG sites/14,475 genes using Illumina's Infinium Bead Array. Candidate gene expression was determined by quantitative real-time PCR. Results HFO introduced widespread DNA methylation changes affecting 6,508 genes (45%), with a maximum methylation change of 13.0 percentage points. The HFO-induced methylation changes were only partly and non-significantly reversed after 6-8weeks.Alterations inDNAmethylation levels primarily affected genes involved in inflammation, the reproductive system and cancer. Few gene expression changes were observed and these had poor correlation to DNA methylation. Conclusions/interpretation The genome-wide DNA methylation changes induced by the short-term HFO diet could have implications for our understanding of transient epigenetic regulation in humans and its contribution to the development of metabolic diseases. The slow reversibility suggests a methylation build-up with HFO, which over time may influence gene expression levels.

AB - Aims/hypothesis Energy-dense diets that are high in fat are associated with a risk of metabolic diseases. The underlying molecular mechanisms could involve epigenetics, as recent data show altered DNA methylation of putative type 2 diabetes candidate genes in response to high-fat diets. We examined the effect of a short-term high-fat overfeeding (HFO) diet on genome-wide DNA methylation patterns in human skeletal muscle. Methods Skeletal muscle biopsies were obtained from 21 healthy young men after ingestion of a short-term HFO diet and a control diet, in a randomised crossover setting. DNA methylation was measured in 27,578 CpG sites/14,475 genes using Illumina's Infinium Bead Array. Candidate gene expression was determined by quantitative real-time PCR. Results HFO introduced widespread DNA methylation changes affecting 6,508 genes (45%), with a maximum methylation change of 13.0 percentage points. The HFO-induced methylation changes were only partly and non-significantly reversed after 6-8weeks.Alterations inDNAmethylation levels primarily affected genes involved in inflammation, the reproductive system and cancer. Few gene expression changes were observed and these had poor correlation to DNA methylation. Conclusions/interpretation The genome-wide DNA methylation changes induced by the short-term HFO diet could have implications for our understanding of transient epigenetic regulation in humans and its contribution to the development of metabolic diseases. The slow reversibility suggests a methylation build-up with HFO, which over time may influence gene expression levels.

U2 - 10.1007/s00125-012-2717-8

DO - 10.1007/s00125-012-2717-8

M3 - Journal article

C2 - 22961225

SN - 0012-186X

VL - 55

SP - 3341

EP - 3349

JO - Diabetologia

JF - Diabetologia

IS - 12

ER -

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

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