Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes

CONTEXT/OBJECTIVE: Impaired adipose tissue (AT) function might induce recent-onset type 2 diabetes (T2D). Understanding AT energy metabolism could yield novel targets for the treatment of T2D. DESIGN/PATIENTS: Male patients with recently-diagnosed T2D and healthy male controls (CON) of similar abdom...

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Autores principales: Bódis, Kálmán, Jelenik, Tomas, Lundbom, Jesper, Markgraf, Daniel F, Strom, Alexander, Zaharia, Oana-Patricia, Karusheva, Yanislava, Burkart, Volker, Müssig, Karsten, Kupriyanova, Yuliya, Ouni, Meriem, Wolkersdorfer, Martin, Hwang, Jong-Hee, Ziegler, Dan, Schürmann, Annette, Roden, Michael, Szendroedi, Julia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2019
Materias:
Online Only Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7060761/
https://www.ncbi.nlm.nih.gov/pubmed/31838512
http://dx.doi.org/10.1210/clinem/dgz267
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author Bódis, Kálmán
Jelenik, Tomas
Lundbom, Jesper
Markgraf, Daniel F
Strom, Alexander
Zaharia, Oana-Patricia
Karusheva, Yanislava
Burkart, Volker
Müssig, Karsten
Kupriyanova, Yuliya
Ouni, Meriem
Wolkersdorfer, Martin
Hwang, Jong-Hee
Ziegler, Dan
Schürmann, Annette
Roden, Michael
Szendroedi, Julia
author_facet Bódis, Kálmán
Jelenik, Tomas
Lundbom, Jesper
Markgraf, Daniel F
Strom, Alexander
Zaharia, Oana-Patricia
Karusheva, Yanislava
Burkart, Volker
Müssig, Karsten
Kupriyanova, Yuliya
Ouni, Meriem
Wolkersdorfer, Martin
Hwang, Jong-Hee
Ziegler, Dan
Schürmann, Annette
Roden, Michael
Szendroedi, Julia
author_sort Bódis, Kálmán
collection PubMed
description CONTEXT/OBJECTIVE: Impaired adipose tissue (AT) function might induce recent-onset type 2 diabetes (T2D). Understanding AT energy metabolism could yield novel targets for the treatment of T2D. DESIGN/PATIENTS: Male patients with recently-diagnosed T2D and healthy male controls (CON) of similar abdominal subcutaneous AT (SAT)-thickness, fat mass, and age (n = 14 each), underwent hyperinsulinemic-euglycemic clamps with [6,6-(2)H(2)]glucose and indirect calorimetry. We assessed mitochondrial efficiency (coupling: state 3/4o; proton leak: state 4o/u) via high-resolution respirometry in superficial (SSAT) and deep (DSAT) SAT-biopsies, hepatocellular lipids (HCL) and fat mass by proton-magnetic-resonance-spectroscopy and -imaging. RESULTS: T2D patients (known diabetes duration: 2.5 [0.1; 5.0] years) had 43%, 44%, and 63% lower muscle insulin sensitivity (IS), metabolic flexibility (P < 0.01) and AT IS (P < 0.05), 73% and 31% higher HCL (P < 0.05), and DSAT-thickness (P < 0.001), but similar hepatic IS compared with CON. Mitochondrial efficiency was ~22% lower in SSAT and DSAT of T2D patients (P < 0.001) and ~8% lower in SSAT vs DSAT (P < 0.05). In both fat depots, mitochondrial coupling correlated positively with muscle IS and metabolic flexibility (r ≥ 0.40; P < 0.05), proton leak correlated positively (r ≥ 0.51; P < 0.01) and oxidative capacity negatively (r ≤ −0.47; P < 0.05) with fasting free fatty acids (FFA). Metabolic flexibility correlated positively with SAT-oxidative capacity (r ≥ 0.48; P < 0.05) and negatively with DSAT-thickness (r = −0.48; P < 0.05). DSAT-thickness correlated negatively with mitochondrial coupling in both depots (r ≤ −0.50; P < 0.01) and muscle IS (r = −0.59; P < 0.01), positively with FFA during clamp (r = 0.63; P < 0.001) and HCL (r = 0.49; P < 0.01). CONCLUSIONS: Impaired mitochondrial function, insulin resistance, and DSAT expansion are AT abnormalities in recent-onset T2D that might promote whole-body insulin resistance and increased substrate flux to the liver.
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spelling pubmed-70607612020-03-11 Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes Bódis, Kálmán Jelenik, Tomas Lundbom, Jesper Markgraf, Daniel F Strom, Alexander Zaharia, Oana-Patricia Karusheva, Yanislava Burkart, Volker Müssig, Karsten Kupriyanova, Yuliya Ouni, Meriem Wolkersdorfer, Martin Hwang, Jong-Hee Ziegler, Dan Schürmann, Annette Roden, Michael Szendroedi, Julia J Clin Endocrinol Metab Online Only Articles CONTEXT/OBJECTIVE: Impaired adipose tissue (AT) function might induce recent-onset type 2 diabetes (T2D). Understanding AT energy metabolism could yield novel targets for the treatment of T2D. DESIGN/PATIENTS: Male patients with recently-diagnosed T2D and healthy male controls (CON) of similar abdominal subcutaneous AT (SAT)-thickness, fat mass, and age (n = 14 each), underwent hyperinsulinemic-euglycemic clamps with [6,6-(2)H(2)]glucose and indirect calorimetry. We assessed mitochondrial efficiency (coupling: state 3/4o; proton leak: state 4o/u) via high-resolution respirometry in superficial (SSAT) and deep (DSAT) SAT-biopsies, hepatocellular lipids (HCL) and fat mass by proton-magnetic-resonance-spectroscopy and -imaging. RESULTS: T2D patients (known diabetes duration: 2.5 [0.1; 5.0] years) had 43%, 44%, and 63% lower muscle insulin sensitivity (IS), metabolic flexibility (P < 0.01) and AT IS (P < 0.05), 73% and 31% higher HCL (P < 0.05), and DSAT-thickness (P < 0.001), but similar hepatic IS compared with CON. Mitochondrial efficiency was ~22% lower in SSAT and DSAT of T2D patients (P < 0.001) and ~8% lower in SSAT vs DSAT (P < 0.05). In both fat depots, mitochondrial coupling correlated positively with muscle IS and metabolic flexibility (r ≥ 0.40; P < 0.05), proton leak correlated positively (r ≥ 0.51; P < 0.01) and oxidative capacity negatively (r ≤ −0.47; P < 0.05) with fasting free fatty acids (FFA). Metabolic flexibility correlated positively with SAT-oxidative capacity (r ≥ 0.48; P < 0.05) and negatively with DSAT-thickness (r = −0.48; P < 0.05). DSAT-thickness correlated negatively with mitochondrial coupling in both depots (r ≤ −0.50; P < 0.01) and muscle IS (r = −0.59; P < 0.01), positively with FFA during clamp (r = 0.63; P < 0.001) and HCL (r = 0.49; P < 0.01). CONCLUSIONS: Impaired mitochondrial function, insulin resistance, and DSAT expansion are AT abnormalities in recent-onset T2D that might promote whole-body insulin resistance and increased substrate flux to the liver. Oxford University Press 2019-12-15 /pmc/articles/PMC7060761/ /pubmed/31838512 http://dx.doi.org/10.1210/clinem/dgz267 Text en © Endocrine Society 2019. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Online Only Articles
Bódis, Kálmán
Jelenik, Tomas
Lundbom, Jesper
Markgraf, Daniel F
Strom, Alexander
Zaharia, Oana-Patricia
Karusheva, Yanislava
Burkart, Volker
Müssig, Karsten
Kupriyanova, Yuliya
Ouni, Meriem
Wolkersdorfer, Martin
Hwang, Jong-Hee
Ziegler, Dan
Schürmann, Annette
Roden, Michael
Szendroedi, Julia
Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes
title Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes
title_full Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes
title_fullStr Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes
title_full_unstemmed Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes
title_short Expansion and Impaired Mitochondrial Efficiency of Deep Subcutaneous Adipose Tissue in Recent-Onset Type 2 Diabetes
title_sort expansion and impaired mitochondrial efficiency of deep subcutaneous adipose tissue in recent-onset type 2 diabetes
topic Online Only Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7060761/
https://www.ncbi.nlm.nih.gov/pubmed/31838512
http://dx.doi.org/10.1210/clinem/dgz267
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