The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA

Sirtuin 3 (SIRT3) deacetylates and activates several mitochondrial fatty acid oxidation enzymes in the liver. Here, we investigated whether the protein acetylase GCN5 general control of amino acid synthesis 5-like 1 (GCN5L1), previously shown to oppose SIRT3 activity, is involved in the regulation o...

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Autores principales: Thapa, Dharendra, Wu, Kaiyuan, Stoner, Michael W., Xie, Bingxian, Zhang, Manling, Manning, Janet R., Lu, Zhongping, Li, Jian H., Chen, Yong, Gucek, Marjan, Playford, Martin P., Mehta, Nehal N., Harmon, Daniel, O'Doherty, Robert M., Jurczak, Michael J., Sack, Michael N., Scott, Iain
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Biochemistry and Molecular Biology 2018
Materias:
Accelerated Communications
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6240879/
https://www.ncbi.nlm.nih.gov/pubmed/30323061
http://dx.doi.org/10.1074/jbc.AC118.005462
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author Thapa, Dharendra
Wu, Kaiyuan
Stoner, Michael W.
Xie, Bingxian
Zhang, Manling
Manning, Janet R.
Lu, Zhongping
Li, Jian H.
Chen, Yong
Gucek, Marjan
Playford, Martin P.
Mehta, Nehal N.
Harmon, Daniel
O'Doherty, Robert M.
Jurczak, Michael J.
Sack, Michael N.
Scott, Iain
author_facet Thapa, Dharendra
Wu, Kaiyuan
Stoner, Michael W.
Xie, Bingxian
Zhang, Manling
Manning, Janet R.
Lu, Zhongping
Li, Jian H.
Chen, Yong
Gucek, Marjan
Playford, Martin P.
Mehta, Nehal N.
Harmon, Daniel
O'Doherty, Robert M.
Jurczak, Michael J.
Sack, Michael N.
Scott, Iain
author_sort Thapa, Dharendra
collection PubMed
description Sirtuin 3 (SIRT3) deacetylates and activates several mitochondrial fatty acid oxidation enzymes in the liver. Here, we investigated whether the protein acetylase GCN5 general control of amino acid synthesis 5-like 1 (GCN5L1), previously shown to oppose SIRT3 activity, is involved in the regulation of hepatic fatty acid oxidation. We show that GCN5L1 abundance is significantly up-regulated in response to an acute high-fat diet (HFD). Transgenic GCN5L1 overexpression in the mouse liver increased protein acetylation levels, and proteomic detection of specific lysine residues identified numerous sites that are co-regulated by GCN5L1 and SIRT3. We analyzed several fatty acid oxidation proteins identified by the proteomic screen and found that hyperacetylation of hydroxyacyl-CoA dehydrogenase trifunctional multienzyme complex subunit α (HADHA) correlates with increased GCN5L1 levels. Stable GCN5L1 knockdown in HepG2 cells reduced HADHA acetylation and increased activities of fatty acid oxidation enzymes. Mice with a liver-specific deletion of GCN5L1 were protected from hepatic lipid accumulation following a chronic HFD and did not exhibit hyperacetylation of HADHA compared with WT controls. Finally, we found that GCN5L1-knockout mice lack HADHA that is hyperacetylated at three specific lysine residues (Lys-350, Lys-383, and Lys-406) and that acetylation at these sites is significantly associated with increased HADHA activity. We conclude that GCN5L1-mediated regulation of mitochondrial protein acetylation plays a role in hepatic metabolic homeostasis.
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spelling pubmed-62408792018-11-20 The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA Thapa, Dharendra Wu, Kaiyuan Stoner, Michael W. Xie, Bingxian Zhang, Manling Manning, Janet R. Lu, Zhongping Li, Jian H. Chen, Yong Gucek, Marjan Playford, Martin P. Mehta, Nehal N. Harmon, Daniel O'Doherty, Robert M. Jurczak, Michael J. Sack, Michael N. Scott, Iain J Biol Chem Accelerated Communications Sirtuin 3 (SIRT3) deacetylates and activates several mitochondrial fatty acid oxidation enzymes in the liver. Here, we investigated whether the protein acetylase GCN5 general control of amino acid synthesis 5-like 1 (GCN5L1), previously shown to oppose SIRT3 activity, is involved in the regulation of hepatic fatty acid oxidation. We show that GCN5L1 abundance is significantly up-regulated in response to an acute high-fat diet (HFD). Transgenic GCN5L1 overexpression in the mouse liver increased protein acetylation levels, and proteomic detection of specific lysine residues identified numerous sites that are co-regulated by GCN5L1 and SIRT3. We analyzed several fatty acid oxidation proteins identified by the proteomic screen and found that hyperacetylation of hydroxyacyl-CoA dehydrogenase trifunctional multienzyme complex subunit α (HADHA) correlates with increased GCN5L1 levels. Stable GCN5L1 knockdown in HepG2 cells reduced HADHA acetylation and increased activities of fatty acid oxidation enzymes. Mice with a liver-specific deletion of GCN5L1 were protected from hepatic lipid accumulation following a chronic HFD and did not exhibit hyperacetylation of HADHA compared with WT controls. Finally, we found that GCN5L1-knockout mice lack HADHA that is hyperacetylated at three specific lysine residues (Lys-350, Lys-383, and Lys-406) and that acetylation at these sites is significantly associated with increased HADHA activity. We conclude that GCN5L1-mediated regulation of mitochondrial protein acetylation plays a role in hepatic metabolic homeostasis. American Society for Biochemistry and Molecular Biology 2018-11-16 2018-10-15 /pmc/articles/PMC6240879/ /pubmed/30323061 http://dx.doi.org/10.1074/jbc.AC118.005462 Text en Author's Choice—Final version open access under the terms of the Creative Commons CC-BY license (http://creativecommons.org/licenses/by/4.0) .
spellingShingle Accelerated Communications
Thapa, Dharendra
Wu, Kaiyuan
Stoner, Michael W.
Xie, Bingxian
Zhang, Manling
Manning, Janet R.
Lu, Zhongping
Li, Jian H.
Chen, Yong
Gucek, Marjan
Playford, Martin P.
Mehta, Nehal N.
Harmon, Daniel
O'Doherty, Robert M.
Jurczak, Michael J.
Sack, Michael N.
Scott, Iain
The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA
title The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA
title_full The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA
title_fullStr The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA
title_full_unstemmed The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA
title_short The protein acetylase GCN5L1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme HADHA
title_sort protein acetylase gcn5l1 modulates hepatic fatty acid oxidation activity via acetylation of the mitochondrial β-oxidation enzyme hadha
topic Accelerated Communications
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6240879/
https://www.ncbi.nlm.nih.gov/pubmed/30323061
http://dx.doi.org/10.1074/jbc.AC118.005462
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