Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice

Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice

Abstract Hypermetabolism following severe burn injuries is associated with adipocyte dysfunction, elevated beige adipocyte formation, and increased energy expenditure. The resulting catabolism of adipose leads to detrimental sequelae such as fatty liver, increased risk of infections, sepsis, and eve...

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Main Authors: Supreet Kaur, Christopher Auger, Dalia Barayan, Priyal Shah, Anna Matveev, Carly M. Knuth, Thurl E. Harris, Marc G. Jeschke
Format: Article
Language:English
Published: Wiley 2021-06-01
Series:Clinical and Translational Medicine
Subjects:
adipose triglyceride lipase
browning
burns
FGF21
mitochondria
trauma
Online Access:https://doi.org/10.1002/ctm2.417
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spelling doaj-49d63209710d49869a903e83f57599172021-07-13T11:05:29ZengWileyClinical and Translational Medicine2001-13262021-06-01116n/an/a10.1002/ctm2.417Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in miceSupreet Kaur0Christopher Auger1Dalia Barayan2Priyal Shah3Anna Matveev4Carly M. Knuth5Thurl E. Harris6Marc G. Jeschke7Ross Tilley Burn Centre Sunnybrook Health Sciences Centre Toronto Ontario CanadaRoss Tilley Burn Centre Sunnybrook Health Sciences Centre Toronto Ontario CanadaRoss Tilley Burn Centre Sunnybrook Health Sciences Centre Toronto Ontario CanadaInstitute of Medical Sciences University of Toronto Toronto Ontario CanadaRoss Tilley Burn Centre Sunnybrook Health Sciences Centre Toronto Ontario CanadaRoss Tilley Burn Centre Sunnybrook Health Sciences Centre Toronto Ontario CanadaDepartment of Pharmacology University of Virginia School of Medicine Charlottesville VA USARoss Tilley Burn Centre Sunnybrook Health Sciences Centre Toronto Ontario CanadaAbstract Hypermetabolism following severe burn injuries is associated with adipocyte dysfunction, elevated beige adipocyte formation, and increased energy expenditure. The resulting catabolism of adipose leads to detrimental sequelae such as fatty liver, increased risk of infections, sepsis, and even death. While the phenomenon of pathological white adipose tissue (WAT) browning is well‐documented in cachexia and burn models, the molecular mechanisms are essentially unknown. Here, we report that adipose triglyceride lipase (ATGL) plays a central role in burn‐induced WAT dysfunction and systemic outcomes. Targeting adipose‐specific ATGL in a murine (AKO) model resulted in diminished browning, decreased circulating fatty acids, and mitigation of burn‐induced hepatomegaly. To assess the clinical applicability of targeting ATGL, we demonstrate that the selective ATGL inhibitor atglistatin mimics the AKO results, suggesting a path forward for improving patient outcomes.https://doi.org/10.1002/ctm2.417adipose triglyceride lipasebrowningburnsFGF21mitochondriatrauma
collection DOAJ
language English
format Article
sources DOAJ
author Supreet Kaur
Christopher Auger
Dalia Barayan
Priyal Shah
Anna Matveev
Carly M. Knuth
Thurl E. Harris
Marc G. Jeschke
spellingShingle Supreet Kaur
Christopher Auger
Dalia Barayan
Priyal Shah
Anna Matveev
Carly M. Knuth
Thurl E. Harris
Marc G. Jeschke
Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice
Clinical and Translational Medicine
adipose triglyceride lipase
browning
burns
FGF21
mitochondria
trauma
author_facet Supreet Kaur
Christopher Auger
Dalia Barayan
Priyal Shah
Anna Matveev
Carly M. Knuth
Thurl E. Harris
Marc G. Jeschke
author_sort Supreet Kaur
title Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice
title_short Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice
title_full Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice
title_fullStr Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice
title_full_unstemmed Adipose‐specific ATGL ablation reduces burn injury‐induced metabolic derangements in mice
title_sort adipose‐specific atgl ablation reduces burn injury‐induced metabolic derangements in mice
publisher Wiley
series Clinical and Translational Medicine
issn 2001-1326
publishDate 2021-06-01
description Abstract Hypermetabolism following severe burn injuries is associated with adipocyte dysfunction, elevated beige adipocyte formation, and increased energy expenditure. The resulting catabolism of adipose leads to detrimental sequelae such as fatty liver, increased risk of infections, sepsis, and even death. While the phenomenon of pathological white adipose tissue (WAT) browning is well‐documented in cachexia and burn models, the molecular mechanisms are essentially unknown. Here, we report that adipose triglyceride lipase (ATGL) plays a central role in burn‐induced WAT dysfunction and systemic outcomes. Targeting adipose‐specific ATGL in a murine (AKO) model resulted in diminished browning, decreased circulating fatty acids, and mitigation of burn‐induced hepatomegaly. To assess the clinical applicability of targeting ATGL, we demonstrate that the selective ATGL inhibitor atglistatin mimics the AKO results, suggesting a path forward for improving patient outcomes.
topic adipose triglyceride lipase
browning
burns
FGF21
mitochondria
trauma
url https://doi.org/10.1002/ctm2.417
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