Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation

Dyslipidemia is commonly linked to skeletal muscle dysfunction, accumulation of intramyocellular lipids, and insulin resistance. However, our previous research indicated that dyslipidemia in apolipoprotein E and low-density lipoprotein receptor double knock-out mice (ApoE/LDLR -/-) leads to improvem...

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Autores principales: Tomczyk, Marta, Braczko, Alicja, Jablonska, Patrycja, Mika, Adriana, Przyborowski, Kamil, Jedrzejewska, Agata, Krol, Oliwia, Kus, Filip, Sledzinski, Tomasz, Chlopicki, Stefan, Slominska, Ewa M., Smolenski, Ryszard T.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8620496/
https://www.ncbi.nlm.nih.gov/pubmed/34830135
http://dx.doi.org/10.3390/ijms222212251
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author Tomczyk, Marta
Braczko, Alicja
Jablonska, Patrycja
Mika, Adriana
Przyborowski, Kamil
Jedrzejewska, Agata
Krol, Oliwia
Kus, Filip
Sledzinski, Tomasz
Chlopicki, Stefan
Slominska, Ewa M.
Smolenski, Ryszard T.
author_facet Tomczyk, Marta
Braczko, Alicja
Jablonska, Patrycja
Mika, Adriana
Przyborowski, Kamil
Jedrzejewska, Agata
Krol, Oliwia
Kus, Filip
Sledzinski, Tomasz
Chlopicki, Stefan
Slominska, Ewa M.
Smolenski, Ryszard T.
author_sort Tomczyk, Marta
collection PubMed
description Dyslipidemia is commonly linked to skeletal muscle dysfunction, accumulation of intramyocellular lipids, and insulin resistance. However, our previous research indicated that dyslipidemia in apolipoprotein E and low-density lipoprotein receptor double knock-out mice (ApoE/LDLR -/-) leads to improvement of exercise capacity. This study aimed to investigate in detail skeletal muscle function and metabolism in these dyslipidemic mice. We found that ApoE/LDLR -/- mice showed an increased grip strength as well as increased troponins, and Mhc2 levels in skeletal muscle. It was accompanied by the increased skeletal muscle mitochondria numbers (judged by increased citrate synthase activity) and elevated total adenine nucleotides pool. We noted increased triglycerides contents in skeletal muscles and increased serum free fatty acids (FFA) levels in ApoE/LDLR -/- mice. Importantly, Ranolazine mediated inhibition of FFA oxidation in ApoE/LDLR -/- mice led to the reduction of exercise capacity and total adenine nucleotides pool. Thus, this study demonstrated that increased capacity for fatty acid oxidation, an adaptive response to dyslipidemia leads to improved cellular energetics that translates to increased skeletal muscle strength and contributes to increased exercise capacity in ApoE/LDLR -/- mice.
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spelling pubmed-86204962021-11-27 Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation Tomczyk, Marta Braczko, Alicja Jablonska, Patrycja Mika, Adriana Przyborowski, Kamil Jedrzejewska, Agata Krol, Oliwia Kus, Filip Sledzinski, Tomasz Chlopicki, Stefan Slominska, Ewa M. Smolenski, Ryszard T. Int J Mol Sci Article Dyslipidemia is commonly linked to skeletal muscle dysfunction, accumulation of intramyocellular lipids, and insulin resistance. However, our previous research indicated that dyslipidemia in apolipoprotein E and low-density lipoprotein receptor double knock-out mice (ApoE/LDLR -/-) leads to improvement of exercise capacity. This study aimed to investigate in detail skeletal muscle function and metabolism in these dyslipidemic mice. We found that ApoE/LDLR -/- mice showed an increased grip strength as well as increased troponins, and Mhc2 levels in skeletal muscle. It was accompanied by the increased skeletal muscle mitochondria numbers (judged by increased citrate synthase activity) and elevated total adenine nucleotides pool. We noted increased triglycerides contents in skeletal muscles and increased serum free fatty acids (FFA) levels in ApoE/LDLR -/- mice. Importantly, Ranolazine mediated inhibition of FFA oxidation in ApoE/LDLR -/- mice led to the reduction of exercise capacity and total adenine nucleotides pool. Thus, this study demonstrated that increased capacity for fatty acid oxidation, an adaptive response to dyslipidemia leads to improved cellular energetics that translates to increased skeletal muscle strength and contributes to increased exercise capacity in ApoE/LDLR -/- mice. MDPI 2021-11-12 /pmc/articles/PMC8620496/ /pubmed/34830135 http://dx.doi.org/10.3390/ijms222212251 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Tomczyk, Marta
Braczko, Alicja
Jablonska, Patrycja
Mika, Adriana
Przyborowski, Kamil
Jedrzejewska, Agata
Krol, Oliwia
Kus, Filip
Sledzinski, Tomasz
Chlopicki, Stefan
Slominska, Ewa M.
Smolenski, Ryszard T.
Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation
title Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation
title_full Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation
title_fullStr Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation
title_full_unstemmed Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation
title_short Enhanced Muscle Strength in Dyslipidemic Mice and Its Relation to Increased Capacity for Fatty Acid Oxidation
title_sort enhanced muscle strength in dyslipidemic mice and its relation to increased capacity for fatty acid oxidation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8620496/
https://www.ncbi.nlm.nih.gov/pubmed/34830135
http://dx.doi.org/10.3390/ijms222212251
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