Reprogramming of hepatic fat accumulation and 'browning' of adipose tissue by the short-chain fatty acid acetate

Background/Objectives: Short-chain fatty acids, produced by microbiome fermentation of carbohydrates, have been linked to a reduction in appetite, body weight and adiposity. However, determining the contribution of central and peripheral mechanisms to these effects has not been possible. Subjects/Me...

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Bibliographic Details
Published in:International Journal of Obesity 2016-06, Vol.40 (6), p.955-963
Main Authors: Sahuri-Arisoylu, M, Brody, L P, Parkinson, J R, Parkes, H, Navaratnam, N, Miller, A D, Thomas, E L, Frost, G, Bell, J D
Format: Article
Language:English
Subjects:
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Accumulation
Acetic acid
Acetic Acid - chemistry
Adipocytes, Brown - drug effects
Adipocytes, Brown - metabolism
Adipogenesis - drug effects
Adipose tissue
Adipose Tissue - drug effects
Adipose Tissue - metabolism
Adipose Tissue, White - drug effects
Adipose Tissue, White - metabolism
Adipose tissues
Analysis
Animals
Appetite
Body fat
Body weight
Browning
Carbohydrates
Diet
Disease Models, Animal
Epidemiology
Fatty acids
Fatty Acids - chemistry
Fatty Acids - pharmacology
Fermentation
Health aspects
Health Promotion and Disease Prevention
High fat diet
Internal Medicine
Kinases
Life sciences
Lipid Metabolism - drug effects
Lipids
Lipolysis
Liver
Liver - drug effects
Liver - metabolism
Male
Medical research
Medicine
Medicine & Public Health
Metabolic Diseases
Metabolism
Mice
Mice, Inbred C57BL
Microbiomes
Mitochondria
Mitochondrial DNA
Nanoparticles
original-article
Physiological aspects
Public Health
Reduction
Signal Transduction - drug effects
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Summary:Background/Objectives: Short-chain fatty acids, produced by microbiome fermentation of carbohydrates, have been linked to a reduction in appetite, body weight and adiposity. However, determining the contribution of central and peripheral mechanisms to these effects has not been possible. Subjects/Methods: C57BL/6 mice fed with either normal or high-fat diet were treated with nanoparticle-delivered acetate, and the effects on metabolism were investigated. Results: In the liver, acetate decreased lipid accumulation and improved hepatic function, as well as increasing mitochondrial efficiency. In white adipose tissue, it inhibited lipolysis and induced 'browning', increasing thermogenic capacity that led to a reduction in body adiposity. Conclusions: This study provides novel insights into the peripheral mechanism of action of acetate, independent of central action, including ‘browning’ and enhancement of hepatic mitochondrial function.
ISSN:0307-0565
1476-5497
DOI:10.1038/ijo.2016.23