Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development

Sirt3 is a mitochondrial NAD(+)-dependent deacetylase that governs mitochondrial metabolism and reactive oxygen species homeostasis. Sirt3 deficiency has been reported to accelerate the development of the metabolic syndrome. However, the role of Sirt3 in atherosclerosis remains enigmatic. We aimed t...

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Autores principales: Winnik, Stephan, Gaul, Daniel S., Preitner, Frédéric, Lohmann, Christine, Weber, Julien, Miranda, Melroy X., Liu, Yilei, van Tits, Lambertus J., Mateos, José María, Brokopp, Chad E., Auwerx, Johan, Thorens, Bernard, Lüscher, Thomas F., Matter, Christian M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2013
Materias:
Original Contribution
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3898152/
https://www.ncbi.nlm.nih.gov/pubmed/24370889
http://dx.doi.org/10.1007/s00395-013-0399-0
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author Winnik, Stephan
Gaul, Daniel S.
Preitner, Frédéric
Lohmann, Christine
Weber, Julien
Miranda, Melroy X.
Liu, Yilei
van Tits, Lambertus J.
Mateos, José María
Brokopp, Chad E.
Auwerx, Johan
Thorens, Bernard
Lüscher, Thomas F.
Matter, Christian M.
author_facet Winnik, Stephan
Gaul, Daniel S.
Preitner, Frédéric
Lohmann, Christine
Weber, Julien
Miranda, Melroy X.
Liu, Yilei
van Tits, Lambertus J.
Mateos, José María
Brokopp, Chad E.
Auwerx, Johan
Thorens, Bernard
Lüscher, Thomas F.
Matter, Christian M.
author_sort Winnik, Stephan
collection PubMed
description Sirt3 is a mitochondrial NAD(+)-dependent deacetylase that governs mitochondrial metabolism and reactive oxygen species homeostasis. Sirt3 deficiency has been reported to accelerate the development of the metabolic syndrome. However, the role of Sirt3 in atherosclerosis remains enigmatic. We aimed to investigate whether Sirt3 deficiency affects atherosclerosis, plaque vulnerability, and metabolic homeostasis. Low-density lipoprotein receptor knockout (LDLR (−/−)) and LDLR/Sirt3 double-knockout (Sirt3 (−/−) LDLR (−/−)) mice were fed a high-cholesterol diet (1.25 % w/w) for 12 weeks. Atherosclerosis was assessed en face in thoraco-abdominal aortae and in cross sections of aortic roots. Sirt3 deletion led to hepatic mitochondrial protein hyperacetylation. Unexpectedly, though plasma malondialdehyde levels were elevated in Sirt3-deficient mice, Sirt3 deletion affected neither plaque burden nor features of plaque vulnerability (i.e., fibrous cap thickness and necrotic core diameter). Likewise, plaque macrophage and T cell infiltration as well as endothelial activation remained unaltered. Electron microscopy of aortic walls revealed no difference in mitochondrial microarchitecture between both groups. Interestingly, loss of Sirt3 was associated with accelerated weight gain and an impaired capacity to cope with rapid changes in nutrient supply as assessed by indirect calorimetry. Serum lipid levels and glucose tolerance were unaffected by Sirt3 deletion in LDLR (−/−) mice. Sirt3 deficiency does not affect atherosclerosis in LDLR (−/−) mice. However, Sirt3 controls systemic levels of oxidative stress, limits expedited weight gain, and allows rapid metabolic adaptation. Thus, Sirt3 may contribute to postponing cardiovascular risk factor development. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00395-013-0399-0) contains supplementary material, which is available to authorized users.
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spelling pubmed-38981522014-01-28 Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development Winnik, Stephan Gaul, Daniel S. Preitner, Frédéric Lohmann, Christine Weber, Julien Miranda, Melroy X. Liu, Yilei van Tits, Lambertus J. Mateos, José María Brokopp, Chad E. Auwerx, Johan Thorens, Bernard Lüscher, Thomas F. Matter, Christian M. Basic Res Cardiol Original Contribution Sirt3 is a mitochondrial NAD(+)-dependent deacetylase that governs mitochondrial metabolism and reactive oxygen species homeostasis. Sirt3 deficiency has been reported to accelerate the development of the metabolic syndrome. However, the role of Sirt3 in atherosclerosis remains enigmatic. We aimed to investigate whether Sirt3 deficiency affects atherosclerosis, plaque vulnerability, and metabolic homeostasis. Low-density lipoprotein receptor knockout (LDLR (−/−)) and LDLR/Sirt3 double-knockout (Sirt3 (−/−) LDLR (−/−)) mice were fed a high-cholesterol diet (1.25 % w/w) for 12 weeks. Atherosclerosis was assessed en face in thoraco-abdominal aortae and in cross sections of aortic roots. Sirt3 deletion led to hepatic mitochondrial protein hyperacetylation. Unexpectedly, though plasma malondialdehyde levels were elevated in Sirt3-deficient mice, Sirt3 deletion affected neither plaque burden nor features of plaque vulnerability (i.e., fibrous cap thickness and necrotic core diameter). Likewise, plaque macrophage and T cell infiltration as well as endothelial activation remained unaltered. Electron microscopy of aortic walls revealed no difference in mitochondrial microarchitecture between both groups. Interestingly, loss of Sirt3 was associated with accelerated weight gain and an impaired capacity to cope with rapid changes in nutrient supply as assessed by indirect calorimetry. Serum lipid levels and glucose tolerance were unaffected by Sirt3 deletion in LDLR (−/−) mice. Sirt3 deficiency does not affect atherosclerosis in LDLR (−/−) mice. However, Sirt3 controls systemic levels of oxidative stress, limits expedited weight gain, and allows rapid metabolic adaptation. Thus, Sirt3 may contribute to postponing cardiovascular risk factor development. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00395-013-0399-0) contains supplementary material, which is available to authorized users. Springer Berlin Heidelberg 2013-12-27 2014 /pmc/articles/PMC3898152/ /pubmed/24370889 http://dx.doi.org/10.1007/s00395-013-0399-0 Text en © The Author(s) 2013 https://creativecommons.org/licenses/by/2.0/ Open AccessThis article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited.
spellingShingle Original Contribution
Winnik, Stephan
Gaul, Daniel S.
Preitner, Frédéric
Lohmann, Christine
Weber, Julien
Miranda, Melroy X.
Liu, Yilei
van Tits, Lambertus J.
Mateos, José María
Brokopp, Chad E.
Auwerx, Johan
Thorens, Bernard
Lüscher, Thomas F.
Matter, Christian M.
Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development
title Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development
title_full Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development
title_fullStr Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development
title_full_unstemmed Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development
title_short Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development
title_sort deletion of sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in ldl receptor knockout mice: implications for cardiovascular risk factor development
topic Original Contribution
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3898152/
https://www.ncbi.nlm.nih.gov/pubmed/24370889
http://dx.doi.org/10.1007/s00395-013-0399-0
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