Diet-induced weight loss decreases adipose tissue oxygen tension with parallel changes in adipose tissue phenotype and insulin sensitivity in overweight humans

R. G. Vink; N. J. Roumans; M. Cajlakovic; J. P. M. Cleutjens; M. V. Boekschoten; P. Fazelzadeh; M. A. A. Vogel; E. E. Blaak; E. C. Mariman; M. A. van Baak; G. H. Goossens

doi:10.1038/ijo.2017.38

Diet-induced weight loss decreases adipose tissue oxygen tension with parallel changes in adipose tissue phenotype and insulin sensitivity in overweight humans

R. G. Vink, N. J. Roumans, M. Cajlakovic, J. P. M. Cleutjens, M. V. Boekschoten, P. Fazelzadeh, M. A. A. Vogel, E. E. Blaak, E. C. Mariman, M. A. van Baak, G. H. Goossens^*

^*Corresponding author for this work

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

Abstract

BACKGROUND/OBJECTIVES: Although adipose tissue (AT) hypoxia is present in rodent models of obesity, evidence for this in humans is limited. Here, we investigated the effects of diet-induced weight loss (WL) on abdominal subcutaneous AT oxygen tension (pO(2)), AT blood flow (ATBF), AT capillary density, AT morphology and transcriptome, systemic inflammatory markers and insulin sensitivity in humans.

SUBJECTS/METHODS: Fifteen overweight and obese individuals underwent a dietary intervention (DI), consisting of a 5-week verylow-calorie diet (VLCD, 500 kcal day(-1); WL), and a subsequent 4-week weight stable diet (WS). Body composition, AT pO(2) (optochemical monitoring), ATBF (Xe-133 washout), and whole-body insulin sensitivity were determined, and AT biopsies were collected at baseline, end of WL (week 5) and end of WS (week 9).

RESULTS: Body weight, body fat percentage and adipocyte size decreased significantly during the DI period. The DI markedly decreased AT pO2 and improved insulin sensitivity, but did not alter ATBF. Finally, the DI increased AT gene expression of pathways related to mitochondrial biogenesis and non-mitochondrial oxygen consumption.

CONCLUSIONS: VLCD-induced WL markedly decreases abdominal subcutaneous AT pO(2), which is paralleled by a reduction in adipocyte size, increased AT gene expression of mitochondrial biogenesis markers and non-mitochondrial oxygen consumption pathways, and improved whole-body insulin sensitivity in humans.

Original language	English
Pages (from-to)	722-728
Number of pages	7
Journal	International Journal of Obesity
Volume	41
Issue number	5
DOIs	https://doi.org/10.1038/ijo.2017.38
Publication status	Published - May 2017

Keywords

BETA-ADRENERGIC STIMULATION
HUMAN OBESITY
CALORIE RESTRICTION
MITOCHONDRIAL BIOGENESIS
METABOLIC HEALTH
GENE-EXPRESSION
BLOOD-FLOW
HYPOXIA
INFLAMMATION
DYSFUNCTION

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10.1038/ijo.2017.38

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Vink, R. G., Roumans, N. J., Cajlakovic, M., Cleutjens, J. P. M., Boekschoten, M. V., Fazelzadeh, P., Vogel, M. A. A., Blaak, E. E., Mariman, E. C., van Baak, M. A., & Goossens, G. H. (2017). Diet-induced weight loss decreases adipose tissue oxygen tension with parallel changes in adipose tissue phenotype and insulin sensitivity in overweight humans. International Journal of Obesity, 41(5), 722-728. https://doi.org/10.1038/ijo.2017.38

@article{97514e2ca0e34aadba5796f820168e34,

title = "Diet-induced weight loss decreases adipose tissue oxygen tension with parallel changes in adipose tissue phenotype and insulin sensitivity in overweight humans",

abstract = "BACKGROUND/OBJECTIVES: Although adipose tissue (AT) hypoxia is present in rodent models of obesity, evidence for this in humans is limited. Here, we investigated the effects of diet-induced weight loss (WL) on abdominal subcutaneous AT oxygen tension (pO(2)), AT blood flow (ATBF), AT capillary density, AT morphology and transcriptome, systemic inflammatory markers and insulin sensitivity in humans.SUBJECTS/METHODS: Fifteen overweight and obese individuals underwent a dietary intervention (DI), consisting of a 5-week verylow-calorie diet (VLCD, 500 kcal day(-1); WL), and a subsequent 4-week weight stable diet (WS). Body composition, AT pO(2) (optochemical monitoring), ATBF (Xe-133 washout), and whole-body insulin sensitivity were determined, and AT biopsies were collected at baseline, end of WL (week 5) and end of WS (week 9).RESULTS: Body weight, body fat percentage and adipocyte size decreased significantly during the DI period. The DI markedly decreased AT pO2 and improved insulin sensitivity, but did not alter ATBF. Finally, the DI increased AT gene expression of pathways related to mitochondrial biogenesis and non-mitochondrial oxygen consumption.CONCLUSIONS: VLCD-induced WL markedly decreases abdominal subcutaneous AT pO(2), which is paralleled by a reduction in adipocyte size, increased AT gene expression of mitochondrial biogenesis markers and non-mitochondrial oxygen consumption pathways, and improved whole-body insulin sensitivity in humans.",

keywords = "BETA-ADRENERGIC STIMULATION, HUMAN OBESITY, CALORIE RESTRICTION, MITOCHONDRIAL BIOGENESIS, METABOLIC HEALTH, GENE-EXPRESSION, BLOOD-FLOW, HYPOXIA, INFLAMMATION, DYSFUNCTION",

author = "Vink, {R. G.} and Roumans, {N. J.} and M. Cajlakovic and Cleutjens, {J. P. M.} and Boekschoten, {M. V.} and P. Fazelzadeh and Vogel, {M. A. A.} and Blaak, {E. E.} and Mariman, {E. C.} and {van Baak}, {M. A.} and Goossens, {G. H.}",

year = "2017",

month = may,

doi = "10.1038/ijo.2017.38",

language = "English",

volume = "41",

pages = "722--728",

journal = "International Journal of Obesity",

issn = "0307-0565",

publisher = "Nature Publishing Group",

number = "5",

}

Vink, RG, Roumans, NJ, Cajlakovic, M, Cleutjens, JPM, Boekschoten, MV, Fazelzadeh, P, Vogel, MAA, Blaak, EE , Mariman, EC , van Baak, MA & Goossens, GH 2017, 'Diet-induced weight loss decreases adipose tissue oxygen tension with parallel changes in adipose tissue phenotype and insulin sensitivity in overweight humans', International Journal of Obesity, vol. 41, no. 5, pp. 722-728. https://doi.org/10.1038/ijo.2017.38

TY - JOUR

T1 - Diet-induced weight loss decreases adipose tissue oxygen tension with parallel changes in adipose tissue phenotype and insulin sensitivity in overweight humans

AU - Vink, R. G.

AU - Roumans, N. J.

AU - Cajlakovic, M.

AU - Cleutjens, J. P. M.

AU - Boekschoten, M. V.

AU - Fazelzadeh, P.

AU - Vogel, M. A. A.

AU - Blaak, E. E.

AU - Mariman, E. C.

AU - van Baak, M. A.

AU - Goossens, G. H.

PY - 2017/5

Y1 - 2017/5

N2 - BACKGROUND/OBJECTIVES: Although adipose tissue (AT) hypoxia is present in rodent models of obesity, evidence for this in humans is limited. Here, we investigated the effects of diet-induced weight loss (WL) on abdominal subcutaneous AT oxygen tension (pO(2)), AT blood flow (ATBF), AT capillary density, AT morphology and transcriptome, systemic inflammatory markers and insulin sensitivity in humans.SUBJECTS/METHODS: Fifteen overweight and obese individuals underwent a dietary intervention (DI), consisting of a 5-week verylow-calorie diet (VLCD, 500 kcal day(-1); WL), and a subsequent 4-week weight stable diet (WS). Body composition, AT pO(2) (optochemical monitoring), ATBF (Xe-133 washout), and whole-body insulin sensitivity were determined, and AT biopsies were collected at baseline, end of WL (week 5) and end of WS (week 9).RESULTS: Body weight, body fat percentage and adipocyte size decreased significantly during the DI period. The DI markedly decreased AT pO2 and improved insulin sensitivity, but did not alter ATBF. Finally, the DI increased AT gene expression of pathways related to mitochondrial biogenesis and non-mitochondrial oxygen consumption.CONCLUSIONS: VLCD-induced WL markedly decreases abdominal subcutaneous AT pO(2), which is paralleled by a reduction in adipocyte size, increased AT gene expression of mitochondrial biogenesis markers and non-mitochondrial oxygen consumption pathways, and improved whole-body insulin sensitivity in humans.

AB - BACKGROUND/OBJECTIVES: Although adipose tissue (AT) hypoxia is present in rodent models of obesity, evidence for this in humans is limited. Here, we investigated the effects of diet-induced weight loss (WL) on abdominal subcutaneous AT oxygen tension (pO(2)), AT blood flow (ATBF), AT capillary density, AT morphology and transcriptome, systemic inflammatory markers and insulin sensitivity in humans.SUBJECTS/METHODS: Fifteen overweight and obese individuals underwent a dietary intervention (DI), consisting of a 5-week verylow-calorie diet (VLCD, 500 kcal day(-1); WL), and a subsequent 4-week weight stable diet (WS). Body composition, AT pO(2) (optochemical monitoring), ATBF (Xe-133 washout), and whole-body insulin sensitivity were determined, and AT biopsies were collected at baseline, end of WL (week 5) and end of WS (week 9).RESULTS: Body weight, body fat percentage and adipocyte size decreased significantly during the DI period. The DI markedly decreased AT pO2 and improved insulin sensitivity, but did not alter ATBF. Finally, the DI increased AT gene expression of pathways related to mitochondrial biogenesis and non-mitochondrial oxygen consumption.CONCLUSIONS: VLCD-induced WL markedly decreases abdominal subcutaneous AT pO(2), which is paralleled by a reduction in adipocyte size, increased AT gene expression of mitochondrial biogenesis markers and non-mitochondrial oxygen consumption pathways, and improved whole-body insulin sensitivity in humans.

KW - BETA-ADRENERGIC STIMULATION

KW - HUMAN OBESITY

KW - CALORIE RESTRICTION

KW - MITOCHONDRIAL BIOGENESIS

KW - METABOLIC HEALTH

KW - GENE-EXPRESSION

KW - BLOOD-FLOW

KW - HYPOXIA

KW - INFLAMMATION

KW - DYSFUNCTION

U2 - 10.1038/ijo.2017.38

DO - 10.1038/ijo.2017.38

M3 - Article

C2 - 28179648

SN - 0307-0565

VL - 41

SP - 722

EP - 728

JO - International Journal of Obesity

JF - International Journal of Obesity

IS - 5

ER -