AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes

AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes

Abstract Altering the balance between energy intake and expenditure is a major strategy for treating obesity. Nonetheless, despite the progression in antiobesity drugs on appetite suppression, therapies aimed at increasing energy expenditure are limited. Here, knockout ofAKAP1, a signaling hub on ou...

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Main Authors: Lele Ji, Ya Zhao, Linjie He, Jing Zhao, Tian Gao, Fengzhou Liu, Bingchao Qi, Fei Kang, Gang Wang, Yilin Zhao, Haitao Guo, Yuanfang He, Fei Li, Qichao Huang, Jinliang Xing
Format: Article
Language:English
Published: Wiley 2021-03-01
Series:Advanced Science
Subjects:
AKAP1
diet‐induced obesity
fatty acid β‐oxidation
insulin resistance
mitochondrial thermogenesis
Online Access:https://doi.org/10.1002/advs.202002794
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spelling doaj-90cc81e92daf4803961d2657830d8de32021-03-17T08:43:53ZengWileyAdvanced Science2198-38442021-03-0186n/an/a10.1002/advs.202002794AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown AdipocytesLele Ji0Ya Zhao1Linjie He2Jing Zhao3Tian Gao4Fengzhou Liu5Bingchao Qi6Fei Kang7Gang Wang8Yilin Zhao9Haitao Guo10Yuanfang He11Fei Li12Qichao Huang13Jinliang Xing14State Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaDepartment of Cardiology Xijing Hospital Fourth Military Medical University Xi'an Shaanxi 710032 ChinaDepartment of Cardiology Xijing Hospital Fourth Military Medical University Xi'an Shaanxi 710032 ChinaDepartment of Nuclear Medicine Xijing Hospital Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaDepartment of Cardiology Xijing Hospital Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaState Key Laboratory of Cancer Biology and Department of Physiology and Pathophysiology Fourth Military Medical University Xi'an Shaanxi 710032 ChinaAbstract Altering the balance between energy intake and expenditure is a major strategy for treating obesity. Nonetheless, despite the progression in antiobesity drugs on appetite suppression, therapies aimed at increasing energy expenditure are limited. Here, knockout ofAKAP1, a signaling hub on outer mitochondrial membrane, renders mice resistant to diet‐induced obesity.AKAP1 knockout significantly enhances energy expenditure and thermogenesis in brown adipose tissues (BATs) of obese mice. Restoring AKAP1 expression in BAT clearly reverses the beneficial antiobesity effect in AKAP1−/− mice. Mechanistically, AKAP1 remarkably decreases fatty acid β‐oxidation (FAO) by phosphorylating ACSL1 to inhibit its activity in a protein‐kinase‐A‐dependent manner and thus inhibits thermogenesis in brown adipocytes. Importantly, AKAP1 peptide inhibitor effectively alleviates diet‐induced obesity and insulin resistance. Altogether, the findings demonstrate that AKAP1 functions as a brake of FAO to promote diet‐induced obesity, which may be used as a potential therapeutic target for obesity.https://doi.org/10.1002/advs.202002794AKAP1diet‐induced obesityfatty acid β‐oxidationinsulin resistancemitochondrial thermogenesis
collection DOAJ
language English
format Article
sources DOAJ
author Lele Ji
Ya Zhao
Linjie He
Jing Zhao
Tian Gao
Fengzhou Liu
Bingchao Qi
Fei Kang
Gang Wang
Yilin Zhao
Haitao Guo
Yuanfang He
Fei Li
Qichao Huang
Jinliang Xing
spellingShingle Lele Ji
Ya Zhao
Linjie He
Jing Zhao
Tian Gao
Fengzhou Liu
Bingchao Qi
Fei Kang
Gang Wang
Yilin Zhao
Haitao Guo
Yuanfang He
Fei Li
Qichao Huang
Jinliang Xing
AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes
Advanced Science
AKAP1
diet‐induced obesity
fatty acid β‐oxidation
insulin resistance
mitochondrial thermogenesis
author_facet Lele Ji
Ya Zhao
Linjie He
Jing Zhao
Tian Gao
Fengzhou Liu
Bingchao Qi
Fei Kang
Gang Wang
Yilin Zhao
Haitao Guo
Yuanfang He
Fei Li
Qichao Huang
Jinliang Xing
author_sort Lele Ji
title AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes
title_short AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes
title_full AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes
title_fullStr AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes
title_full_unstemmed AKAP1 Deficiency Attenuates Diet‐Induced Obesity and Insulin Resistance by Promoting Fatty Acid Oxidation and Thermogenesis in Brown Adipocytes
title_sort akap1 deficiency attenuates diet‐induced obesity and insulin resistance by promoting fatty acid oxidation and thermogenesis in brown adipocytes
publisher Wiley
series Advanced Science
issn 2198-3844
publishDate 2021-03-01
description Abstract Altering the balance between energy intake and expenditure is a major strategy for treating obesity. Nonetheless, despite the progression in antiobesity drugs on appetite suppression, therapies aimed at increasing energy expenditure are limited. Here, knockout ofAKAP1, a signaling hub on outer mitochondrial membrane, renders mice resistant to diet‐induced obesity.AKAP1 knockout significantly enhances energy expenditure and thermogenesis in brown adipose tissues (BATs) of obese mice. Restoring AKAP1 expression in BAT clearly reverses the beneficial antiobesity effect in AKAP1−/− mice. Mechanistically, AKAP1 remarkably decreases fatty acid β‐oxidation (FAO) by phosphorylating ACSL1 to inhibit its activity in a protein‐kinase‐A‐dependent manner and thus inhibits thermogenesis in brown adipocytes. Importantly, AKAP1 peptide inhibitor effectively alleviates diet‐induced obesity and insulin resistance. Altogether, the findings demonstrate that AKAP1 functions as a brake of FAO to promote diet‐induced obesity, which may be used as a potential therapeutic target for obesity.
topic AKAP1
diet‐induced obesity
fatty acid β‐oxidation
insulin resistance
mitochondrial thermogenesis
url https://doi.org/10.1002/advs.202002794
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