Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity

BACKGROUND: The type 2 iodothyronine deiodinase (D2) converts the pro-hormone thyroxine into T3 within target tissues. D2 is essential for a full thermogenic response of brown adipose tissue (BAT), and mice with a disrupted Dio2 gene (D2KO) have an impaired response to cold. BAT is also activated by...

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Autores principales: Marsili, Alessandro, Aguayo-Mazzucato, Cristina, Chen, Ting, Kumar, Aditi, Chung, Mirra, Lunsford, Elaine P., Harney, John W., Van-Tran, Thuy, Gianetti, Elena, Ramadan, Waile, Chou, Cyril, Bonner-Weir, Susan, Larsen, Philip Reed, Silva, Jorge Enrique, Zavacki, Ann Marie
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3116839/
https://www.ncbi.nlm.nih.gov/pubmed/21698184
http://dx.doi.org/10.1371/journal.pone.0020832
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author Marsili, Alessandro
Aguayo-Mazzucato, Cristina
Chen, Ting
Kumar, Aditi
Chung, Mirra
Lunsford, Elaine P.
Harney, John W.
Van-Tran, Thuy
Gianetti, Elena
Ramadan, Waile
Chou, Cyril
Bonner-Weir, Susan
Larsen, Philip Reed
Silva, Jorge Enrique
Zavacki, Ann Marie
author_facet Marsili, Alessandro
Aguayo-Mazzucato, Cristina
Chen, Ting
Kumar, Aditi
Chung, Mirra
Lunsford, Elaine P.
Harney, John W.
Van-Tran, Thuy
Gianetti, Elena
Ramadan, Waile
Chou, Cyril
Bonner-Weir, Susan
Larsen, Philip Reed
Silva, Jorge Enrique
Zavacki, Ann Marie
author_sort Marsili, Alessandro
collection PubMed
description BACKGROUND: The type 2 iodothyronine deiodinase (D2) converts the pro-hormone thyroxine into T3 within target tissues. D2 is essential for a full thermogenic response of brown adipose tissue (BAT), and mice with a disrupted Dio2 gene (D2KO) have an impaired response to cold. BAT is also activated by overfeeding. METHODOLOGY/PRINCIPAL FINDINGS: After 6-weeks of HFD feeding D2KO mice gained 5.6% more body weight and had 28% more adipose tissue. Oxygen consumption (V0(2)) was not different between genotypes, but D2KO mice had an increased respiratory exchange ratio (RER), suggesting preferential use of carbohydrates. Consistent with this, serum free fatty acids and β-hydroxybutyrate were lower in D2KO mice on a HFD, while hepatic triglycerides were increased and glycogen content decreased. Neither genotype showed glucose intolerance, but D2KO mice had significantly higher insulin levels during GTT independent of diet. Accordingly, during ITT testing D2KO mice had a significantly reduced glucose uptake, consistent with insulin resistance. Gene expression levels in liver, muscle, and brown and white adipose tissue showed no differences that could account for the increased weight gain in D2KO mice. However, D2KO mice have higher PEPCK mRNA in liver suggesting increased gluconeogenesis, which could also contribute to their apparent insulin resistance. CONCLUSIONS/SIGNIFICANCE: We conclude that the loss of the Dio2 gene has significant metabolic consequences. D2KO mice gain more weight on a HFD, suggesting a role for D2 in protection from diet-induced obesity. Further, D2KO mice appear to have a greater reliance on carbohydrates as a fuel source, and limited ability to mobilize and to burn fat. This results in increased fat storage in adipose tissue, hepatic steatosis, and depletion of liver glycogen in spite of increased gluconeogenesis. D2KO mice are also less responsive to insulin, independent of diet-induced obesity.
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spelling pubmed-31168392011-06-22 Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity Marsili, Alessandro Aguayo-Mazzucato, Cristina Chen, Ting Kumar, Aditi Chung, Mirra Lunsford, Elaine P. Harney, John W. Van-Tran, Thuy Gianetti, Elena Ramadan, Waile Chou, Cyril Bonner-Weir, Susan Larsen, Philip Reed Silva, Jorge Enrique Zavacki, Ann Marie PLoS One Research Article BACKGROUND: The type 2 iodothyronine deiodinase (D2) converts the pro-hormone thyroxine into T3 within target tissues. D2 is essential for a full thermogenic response of brown adipose tissue (BAT), and mice with a disrupted Dio2 gene (D2KO) have an impaired response to cold. BAT is also activated by overfeeding. METHODOLOGY/PRINCIPAL FINDINGS: After 6-weeks of HFD feeding D2KO mice gained 5.6% more body weight and had 28% more adipose tissue. Oxygen consumption (V0(2)) was not different between genotypes, but D2KO mice had an increased respiratory exchange ratio (RER), suggesting preferential use of carbohydrates. Consistent with this, serum free fatty acids and β-hydroxybutyrate were lower in D2KO mice on a HFD, while hepatic triglycerides were increased and glycogen content decreased. Neither genotype showed glucose intolerance, but D2KO mice had significantly higher insulin levels during GTT independent of diet. Accordingly, during ITT testing D2KO mice had a significantly reduced glucose uptake, consistent with insulin resistance. Gene expression levels in liver, muscle, and brown and white adipose tissue showed no differences that could account for the increased weight gain in D2KO mice. However, D2KO mice have higher PEPCK mRNA in liver suggesting increased gluconeogenesis, which could also contribute to their apparent insulin resistance. CONCLUSIONS/SIGNIFICANCE: We conclude that the loss of the Dio2 gene has significant metabolic consequences. D2KO mice gain more weight on a HFD, suggesting a role for D2 in protection from diet-induced obesity. Further, D2KO mice appear to have a greater reliance on carbohydrates as a fuel source, and limited ability to mobilize and to burn fat. This results in increased fat storage in adipose tissue, hepatic steatosis, and depletion of liver glycogen in spite of increased gluconeogenesis. D2KO mice are also less responsive to insulin, independent of diet-induced obesity. Public Library of Science 2011-06-16 /pmc/articles/PMC3116839/ /pubmed/21698184 http://dx.doi.org/10.1371/journal.pone.0020832 Text en Marsili et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Marsili, Alessandro
Aguayo-Mazzucato, Cristina
Chen, Ting
Kumar, Aditi
Chung, Mirra
Lunsford, Elaine P.
Harney, John W.
Van-Tran, Thuy
Gianetti, Elena
Ramadan, Waile
Chou, Cyril
Bonner-Weir, Susan
Larsen, Philip Reed
Silva, Jorge Enrique
Zavacki, Ann Marie
Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity
title Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity
title_full Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity
title_fullStr Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity
title_full_unstemmed Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity
title_short Mice with a Targeted Deletion of the Type 2 Deiodinase Are Insulin Resistant and Susceptible to Diet Induced Obesity
title_sort mice with a targeted deletion of the type 2 deiodinase are insulin resistant and susceptible to diet induced obesity
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3116839/
https://www.ncbi.nlm.nih.gov/pubmed/21698184
http://dx.doi.org/10.1371/journal.pone.0020832
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