Literature DB >> 28679946

Independent tissue contributors to obesity-associated insulin resistance.

Yvo Ham Kusters1,2,3, Casper G Schalkwijk1,2,3, Alfons Jhm Houben1,2, M Eline Kooi2,4,5, Lucas Lindeboom4,5,6, Jos Op 't Roodt1,2,3, Peter J Joris3,5,6, Jogchum Plat5,6, Ronald P Mensink3,5,6, Eugene J Barrett7, Coen DA Stehouwer1,2.   

Abstract

BACKGROUND: Induction of insulin resistance is a key pathway through which obesity increases risk of type 2 diabetes, hypertension, dyslipidemia, and cardiovascular events. Although the detrimental effects of obesity on insulin sensitivity are incompletely understood, accumulation of visceral, subcutaneous, and liver fat and impairment of insulin-induced muscle microvascular recruitment (MVR) may be involved. As these phenotypic changes often coincide in obesity, we aimed to unravel whether they independently contribute to insulin resistance and thus constitute separate targets for intervention.
METHODS: We measured visceral (VAT) and subcutaneous adipose tissue (SAT) volumes and intrahepatic lipid (IHL) content by MRI, and whole body glucose disposal (WBGD) and MVR (using contrast-enhanced ultrasound) responses to a euglycemic insulin clamp in lean (n = 25) and abdominally obese men (n = 52). Abdominally obese men were randomized to dietary weight loss intervention or habitual diet.
RESULTS: Obesity-associated increases in VAT, SAT, and IHL, along with the decrease in MVR, contributed independently to insulin resistance. Moreover, a dietary weight loss intervention reduced insulin resistance, and mediation analyses showed that decreased IHL and insulin-induced MVR, but not decreased VAT or SAT volumes, independently contributed to improved insulin resistance seen with weight loss.
CONCLUSION: Quantifying the mutually independent contributions of visceral and subcutaneous adipose tissue, intrahepatic lipid, and insulin-induced muscle microvascular recruitment reveals distinct targets for treating obesity-associated insulin resistance. TRIAL REGISTRATION: Clinicaltrials.gov NCT01675401. FUNDING: Funding was from the Top Institute Food and Nutrition.

Entities:  

Keywords:  Endocrinology; Metabolism

Year:  2017        PMID: 28679946      PMCID: PMC5499371          DOI: 10.1172/jci.insight.89695

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  29 in total

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4.  Obesity blunts insulin-mediated microvascular recruitment in human forearm muscle.

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5.  Increased whole-body adiposity without a concomitant increase in liver fat is not associated with augmented metabolic dysfunction.

Authors:  Faidon Magkos; Elisa Fabbrini; B Selma Mohammed; Bruce W Patterson; Samuel Klein
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6.  Abdominal adiposity and insulin resistance in obese men.

Authors:  Robert Ross; James Aru; Jennifer Freeman; Robert Hudson; Ian Janssen
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7.  Intrahepatic fat, not visceral fat, is linked with metabolic complications of obesity.

Authors:  Elisa Fabbrini; Faidon Magkos; B Selma Mohammed; Terri Pietka; Nada A Abumrad; Bruce W Patterson; Adewole Okunade; Samuel Klein
Journal:  Proc Natl Acad Sci U S A       Date:  2009-08-24       Impact factor: 11.205

8.  A common variant in PNPLA3, which encodes adiponutrin, is associated with liver fat content in humans.

Authors:  A Kotronen; L E Johansson; L M Johansson; C Roos; J Westerbacka; A Hamsten; R Bergholm; P Arkkila; J Arola; T Kiviluoto; R M Fisher; E Ehrenborg; M Orho-Melander; M Ridderstråle; L Groop; H Yki-Järvinen
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9.  Metabolically healthy obesity: epidemiology, mechanisms, and clinical implications.

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Review 10.  Non-alcoholic fatty liver disease (NAFLD) and its connection with insulin resistance, dyslipidemia, atherosclerosis and coronary heart disease.

Authors:  Melania Gaggini; Mariangela Morelli; Emma Buzzigoli; Ralph A DeFronzo; Elisabetta Bugianesi; Amalia Gastaldelli
Journal:  Nutrients       Date:  2013-05-10       Impact factor: 5.717
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3.  A 4-week high-AGE diet does not impair glucose metabolism and vascular function in obese individuals.

Authors:  Armand Ma Linkens; Alfons Jhm Houben; Petra M Niessen; Nicole Eg Wijckmans; Erica Ec de Goei; Mathias Dg Van den Eynde; Jean Ljm Scheijen; Marjo Ph van den Waarenburg; Andrea Mari; Tos Tjm Berendschot; Lukas Streese; Henner Hanssen; Martien Cjm van Dongen; Christel Cjaw van Gool; Coen DA Stehouwer; Simone Jmp Eussen; Casper G Schalkwijk
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4.  Effects of Diet-Induced Weight Loss on Plasma Markers for Cholesterol Absorption and Synthesis: Secondary Analysis of a Randomized Trial in Abdominally Obese Men.

Authors:  Sultan Mashnafi; Jogchum Plat; Ronald P Mensink; Peter J Joris; Yvo H A M Kusters; Alfons J H M Houben; Coen D A Stehouwer; Casper G Schalkwijk; Sabine Baumgartner
Journal:  Nutrients       Date:  2022-04-08       Impact factor: 6.706

5.  A randomized diet-induced weight-loss intervention reduces plasma complement C3: Possible implication for endothelial dysfunction.

Authors:  Shunxin Jin; Yvo H A M Kusters; Alfons J H M Houben; Jogchum Plat; Peter J Joris; Ronald P Mensink; Casper G Schalkwijk; Coen D A Stehouwer; Marleen M J van Greevenbroek
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