Pex11a deficiency causes dyslipidaemia and obesity in mice

Peroxisomes play a central role in lipid metabolism. We previously demonstrated that Pex11a deficiency impairs peroxisome abundance and fatty acid β‐oxidation and results in hepatic triglyceride accumulation. The role of Pex11a in dyslipidaemia and obesity is investigated here with Pex11a knockout m...

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Autores principales: Chen, Congcong, Wang, Hongwei, Chen, Bicheng, Chen, Deyuan, Lu, Chaosheng, Li, Haiyan, Qian, Yan, Tan, Yi, Weng, Huachun, Cai, Lu
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2018
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6378206/
https://www.ncbi.nlm.nih.gov/pubmed/30585412
http://dx.doi.org/10.1111/jcmm.14108
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author Chen, Congcong
Wang, Hongwei
Chen, Bicheng
Chen, Deyuan
Lu, Chaosheng
Li, Haiyan
Qian, Yan
Tan, Yi
Weng, Huachun
Cai, Lu
author_facet Chen, Congcong
Wang, Hongwei
Chen, Bicheng
Chen, Deyuan
Lu, Chaosheng
Li, Haiyan
Qian, Yan
Tan, Yi
Weng, Huachun
Cai, Lu
author_sort Chen, Congcong
collection PubMed
description Peroxisomes play a central role in lipid metabolism. We previously demonstrated that Pex11a deficiency impairs peroxisome abundance and fatty acid β‐oxidation and results in hepatic triglyceride accumulation. The role of Pex11a in dyslipidaemia and obesity is investigated here with Pex11a knockout mice (Pex11a(−/−)). Metabolic phenotypes including tissue weight, glucose tolerance, insulin sensitivity, cholesterol levels, fatty acid profile, oxygen consumption, physical activity were assessed in wild‐type (WT) and Pex11a(−/−) fed with a high‐fat diet. Molecular changes and peroxisome abundance in adipose tissue were evaluated through qRT‐PCR, Western blotting, and Immunofluorescence. Pex11a(−/−) showed increased fat mass, decreased skeletal muscle, higher cholesterol levels, and more severely impaired glucose and insulin tolerance. Pex11a(−/−) consumed less oxygen, indicating a decrease in fatty acid oxidation, which is consistent with the accumulation of very long‐ and long‐chain fatty acids. Adipose palmitic acid (C16:0) levels were elevated in Pex11a(−/−), which may be because of dramatically increased fatty acid synthase mRNA and protein levels. Furthermore, Pex11a deficiency increased ventricle size and macrophage infiltration, which are related to the reduced physical activity. These data demonstrate that Pex11a deficiency impairs physical activity and energy expenditure, decreases fatty acid β‐oxidation, increases de novo lipogenesis and results in dyslipidaemia and obesity.
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spelling pubmed-63782062019-03-01 Pex11a deficiency causes dyslipidaemia and obesity in mice Chen, Congcong Wang, Hongwei Chen, Bicheng Chen, Deyuan Lu, Chaosheng Li, Haiyan Qian, Yan Tan, Yi Weng, Huachun Cai, Lu J Cell Mol Med Original Articles Peroxisomes play a central role in lipid metabolism. We previously demonstrated that Pex11a deficiency impairs peroxisome abundance and fatty acid β‐oxidation and results in hepatic triglyceride accumulation. The role of Pex11a in dyslipidaemia and obesity is investigated here with Pex11a knockout mice (Pex11a(−/−)). Metabolic phenotypes including tissue weight, glucose tolerance, insulin sensitivity, cholesterol levels, fatty acid profile, oxygen consumption, physical activity were assessed in wild‐type (WT) and Pex11a(−/−) fed with a high‐fat diet. Molecular changes and peroxisome abundance in adipose tissue were evaluated through qRT‐PCR, Western blotting, and Immunofluorescence. Pex11a(−/−) showed increased fat mass, decreased skeletal muscle, higher cholesterol levels, and more severely impaired glucose and insulin tolerance. Pex11a(−/−) consumed less oxygen, indicating a decrease in fatty acid oxidation, which is consistent with the accumulation of very long‐ and long‐chain fatty acids. Adipose palmitic acid (C16:0) levels were elevated in Pex11a(−/−), which may be because of dramatically increased fatty acid synthase mRNA and protein levels. Furthermore, Pex11a deficiency increased ventricle size and macrophage infiltration, which are related to the reduced physical activity. These data demonstrate that Pex11a deficiency impairs physical activity and energy expenditure, decreases fatty acid β‐oxidation, increases de novo lipogenesis and results in dyslipidaemia and obesity. John Wiley and Sons Inc. 2018-12-25 2019-03 /pmc/articles/PMC6378206/ /pubmed/30585412 http://dx.doi.org/10.1111/jcmm.14108 Text en © 2018 The Authors. Journal of Cellular and Molecular Medicine published by John Wiley & Sons Ltd and Foundation for Cellular and Molecular Medicine. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Chen, Congcong
Wang, Hongwei
Chen, Bicheng
Chen, Deyuan
Lu, Chaosheng
Li, Haiyan
Qian, Yan
Tan, Yi
Weng, Huachun
Cai, Lu
Pex11a deficiency causes dyslipidaemia and obesity in mice
title Pex11a deficiency causes dyslipidaemia and obesity in mice
title_full Pex11a deficiency causes dyslipidaemia and obesity in mice
title_fullStr Pex11a deficiency causes dyslipidaemia and obesity in mice
title_full_unstemmed Pex11a deficiency causes dyslipidaemia and obesity in mice
title_short Pex11a deficiency causes dyslipidaemia and obesity in mice
title_sort pex11a deficiency causes dyslipidaemia and obesity in mice
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6378206/
https://www.ncbi.nlm.nih.gov/pubmed/30585412
http://dx.doi.org/10.1111/jcmm.14108
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