PPARs and microbiota in skeletal muscle health and wasting
Skeletal muscle is a major metabolic organ that uses mostly glucose and lipids for energy production and has the capacity to remodel itself in response to exercise and fasting. Skeletal muscle wasting occurs in many diseases and during aging. Muscle wasting is often accompanied by chronic low-grade...
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sg-ntu-dr.10356-1448952023-03-05T16:46:57Z PPARs and microbiota in skeletal muscle health and wasting Manickam, Ravikumar Duszka, Kalina Wahli, Walter Lee Kong Chian School of Medicine (LKCMedicine) Science::Medicine PPAR Muscle Skeletal muscle is a major metabolic organ that uses mostly glucose and lipids for energy production and has the capacity to remodel itself in response to exercise and fasting. Skeletal muscle wasting occurs in many diseases and during aging. Muscle wasting is often accompanied by chronic low-grade inflammation associated to inter- and intra-muscular fat deposition. During aging, muscle wasting is advanced due to increased movement disorders, as a result of restricted physical exercise, frailty, and the pain associated with arthritis. Muscle atrophy is characterized by increased protein degradation, where the ubiquitin-proteasomal and autophagy-lysosomal pathways, atrogenes, and growth factor signaling all play an important role. Peroxisome proliferator-activated receptors (PPARs) are members of the nuclear receptor family of transcription factors, which are activated by fatty acids and their derivatives. PPARs regulate genes that are involved in development, metabolism, inflammation, and many cellular processes in different organs. PPARs are also expressed in muscle and exert pleiotropic specialized responses upon activation by their ligands. There are three PPAR isotypes, viz., PPARα, -β/δ, and -γ. The expression of PPARα is high in tissues with effective fatty acid catabolism, including skeletal muscle. PPARβ/δ is expressed more ubiquitously and is the predominant isotype in skeletal muscle. It is involved in energy metabolism, mitochondrial biogenesis, and fiber-type switching. The expression of PPARγ is high in adipocytes, but it is also implicated in lipid deposition in muscle and other organs. Collectively, all three PPAR isotypes have a major impact on muscle homeostasis either directly or indirectly. Furthermore, reciprocal interactions have been found between PPARs and the gut microbiota along the gut–muscle axis in both health and disease. Herein, we review functions of PPARs in skeletal muscle and their interaction with the gut microbiota in the context of muscle wasting. Accepted version 2020-12-02T07:32:12Z 2020-12-02T07:32:12Z 2020 Journal Article Manickam, R., Duszka, K., & Wahli, W. (2020). PPARs and Microbiota in Skeletal Muscle Health and Wasting. International Journal of Molecular Sciences, 21(21), 8056-. doi:10.3390/ijms21218056 1661-6596 https://hdl.handle.net/10356/144895 10.3390/ijms21218056 21 21 en International Journal of Molecular Sciences © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open accessarticle distributed under the terms and conditions of the Creative Commons Attribution(CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Science::Medicine PPAR Muscle Manickam, Ravikumar Duszka, Kalina Wahli, Walter PPARs and microbiota in skeletal muscle health and wasting |
| description |
Skeletal muscle is a major metabolic organ that uses mostly glucose and lipids for energy production and has the capacity to remodel itself in response to exercise and fasting. Skeletal muscle wasting occurs in many diseases and during aging. Muscle wasting is often accompanied by chronic low-grade inflammation associated to inter- and intra-muscular fat deposition. During aging, muscle wasting is advanced due to increased movement disorders, as a result of restricted physical exercise, frailty, and the pain associated with arthritis. Muscle atrophy is characterized by increased protein degradation, where the ubiquitin-proteasomal and autophagy-lysosomal pathways, atrogenes, and growth factor signaling all play an important role. Peroxisome proliferator-activated receptors (PPARs) are members of the nuclear receptor family of transcription factors, which are activated by fatty acids and their derivatives. PPARs regulate genes that are involved in development, metabolism, inflammation, and many cellular processes in different organs. PPARs are also expressed in muscle and exert pleiotropic specialized responses upon activation by their ligands. There are three PPAR isotypes, viz., PPARα, -β/δ, and -γ. The expression of PPARα is high in tissues with effective fatty acid catabolism, including skeletal muscle. PPARβ/δ is expressed more ubiquitously and is the predominant isotype in skeletal muscle. It is involved in energy metabolism, mitochondrial biogenesis, and fiber-type switching. The expression of PPARγ is high in adipocytes, but it is also implicated in lipid deposition in muscle and other organs. Collectively, all three PPAR isotypes have a major impact on muscle homeostasis either directly or indirectly. Furthermore, reciprocal interactions have been found between PPARs and the gut microbiota along the gut–muscle axis in both health and disease. Herein, we review functions of PPARs in skeletal muscle and their interaction with the gut microbiota in the context of muscle wasting. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Manickam, Ravikumar Duszka, Kalina Wahli, Walter |
| format |
Article |
| author |
Manickam, Ravikumar Duszka, Kalina Wahli, Walter |
| author_sort |
Manickam, Ravikumar |
| title |
PPARs and microbiota in skeletal muscle health and wasting |
| title_short |
PPARs and microbiota in skeletal muscle health and wasting |
| title_full |
PPARs and microbiota in skeletal muscle health and wasting |
| title_fullStr |
PPARs and microbiota in skeletal muscle health and wasting |
| title_full_unstemmed |
PPARs and microbiota in skeletal muscle health and wasting |
| title_sort |
ppars and microbiota in skeletal muscle health and wasting |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144895 |
| _version_ |
1759855267591225344 |