Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism

The interplay between skeletal muscle and bone is primarily mechanical; however, biochemical crosstalk by secreted mediators has recently gained increased attention. The aim of this study was to investigate metabolic effects of conditioned medium from osteoblasts (OB-CM) on myotubes and vice versa....

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Autores principales: Lunde, Ngoc Nguyen, Osoble, Nimo Mukhtar Mohamud, Fernandez, Andrea Dalmao, Antobreh, Alfreda S., Jafari, Abbas, Singh, Sachin, Nyman, Tuula A., Rustan, Arild C., Solberg, Rigmor, Thoresen, G. Hege
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10669731/
https://www.ncbi.nlm.nih.gov/pubmed/38001909
http://dx.doi.org/10.3390/biomedicines11112908
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author Lunde, Ngoc Nguyen
Osoble, Nimo Mukhtar Mohamud
Fernandez, Andrea Dalmao
Antobreh, Alfreda S.
Jafari, Abbas
Singh, Sachin
Nyman, Tuula A.
Rustan, Arild C.
Solberg, Rigmor
Thoresen, G. Hege
author_facet Lunde, Ngoc Nguyen
Osoble, Nimo Mukhtar Mohamud
Fernandez, Andrea Dalmao
Antobreh, Alfreda S.
Jafari, Abbas
Singh, Sachin
Nyman, Tuula A.
Rustan, Arild C.
Solberg, Rigmor
Thoresen, G. Hege
author_sort Lunde, Ngoc Nguyen
collection PubMed
description The interplay between skeletal muscle and bone is primarily mechanical; however, biochemical crosstalk by secreted mediators has recently gained increased attention. The aim of this study was to investigate metabolic effects of conditioned medium from osteoblasts (OB-CM) on myotubes and vice versa. Human skeletal muscle cells incubated with OB-CM showed increased glucose uptake and oxidation, and mRNA expression of the glucose transporter (GLUT) 1, while fatty acid uptake and oxidation, and mRNA expression of the fatty acid transporter CD36 were decreased. This was supported by proteomic analysis, where expression of proteins involved in glucose uptake, glycolytic pathways, and the TCA cycle were enhanced, and expression of several proteins involved in fatty acid metabolism were reduced. Similar effects on energy metabolism were observed in human bone marrow stromal cells differentiated to osteoblastic cells incubated with conditioned medium from myotubes (SKM-CM), with increased glucose uptake and reduced oleic acid uptake. Proteomic analyses of the two conditioned media revealed many common proteins. Thus, our data may indicate a shift in fuel preference from fatty acid to glucose metabolism in both cell types, induced by conditioned media from the opposite cell type, possibly indicating a more general pattern in communication between these tissues.
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spelling pubmed-106697312023-10-27 Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism Lunde, Ngoc Nguyen Osoble, Nimo Mukhtar Mohamud Fernandez, Andrea Dalmao Antobreh, Alfreda S. Jafari, Abbas Singh, Sachin Nyman, Tuula A. Rustan, Arild C. Solberg, Rigmor Thoresen, G. Hege Biomedicines Article The interplay between skeletal muscle and bone is primarily mechanical; however, biochemical crosstalk by secreted mediators has recently gained increased attention. The aim of this study was to investigate metabolic effects of conditioned medium from osteoblasts (OB-CM) on myotubes and vice versa. Human skeletal muscle cells incubated with OB-CM showed increased glucose uptake and oxidation, and mRNA expression of the glucose transporter (GLUT) 1, while fatty acid uptake and oxidation, and mRNA expression of the fatty acid transporter CD36 were decreased. This was supported by proteomic analysis, where expression of proteins involved in glucose uptake, glycolytic pathways, and the TCA cycle were enhanced, and expression of several proteins involved in fatty acid metabolism were reduced. Similar effects on energy metabolism were observed in human bone marrow stromal cells differentiated to osteoblastic cells incubated with conditioned medium from myotubes (SKM-CM), with increased glucose uptake and reduced oleic acid uptake. Proteomic analyses of the two conditioned media revealed many common proteins. Thus, our data may indicate a shift in fuel preference from fatty acid to glucose metabolism in both cell types, induced by conditioned media from the opposite cell type, possibly indicating a more general pattern in communication between these tissues. MDPI 2023-10-27 /pmc/articles/PMC10669731/ /pubmed/38001909 http://dx.doi.org/10.3390/biomedicines11112908 Text en © 2023 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
Lunde, Ngoc Nguyen
Osoble, Nimo Mukhtar Mohamud
Fernandez, Andrea Dalmao
Antobreh, Alfreda S.
Jafari, Abbas
Singh, Sachin
Nyman, Tuula A.
Rustan, Arild C.
Solberg, Rigmor
Thoresen, G. Hege
Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism
title Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism
title_full Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism
title_fullStr Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism
title_full_unstemmed Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism
title_short Interplay between Cultured Human Osteoblastic and Skeletal Muscle Cells: Effects of Conditioned Media on Glucose and Fatty Acid Metabolism
title_sort interplay between cultured human osteoblastic and skeletal muscle cells: effects of conditioned media on glucose and fatty acid metabolism
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10669731/
https://www.ncbi.nlm.nih.gov/pubmed/38001909
http://dx.doi.org/10.3390/biomedicines11112908
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