Difference between revisions of "Inigo 2019 Mol Metab"
Ā |
|||
| (3 intermediate revisions by one other user not shown) | |||
| Line 1: | Line 1: | ||
{{Publication | {{Publication | ||
|title=Inigo MR, Amorese AJ, Tarpey MD, Balestrieri NP, Jones KG, Patteson DJ, Jackson KC, Torres MJ, Lin CT, Smith CD, Heden TD, McMillin SL, Weyrauch LA, Stanley EC, Schmidt CA, Kilburg-Basnyat BB, Reece SW, Psaltis CE, Leinwand LA, Funai K, McClung JM, Gowdy KM, Witczak CA, Lowe DA, Neufer PD, Spangenburg EE ( | |title=Inigo MR, Amorese AJ, Tarpey MD, Balestrieri NP, Jones KG, Patteson DJ, Jackson KC, Torres MJ, Lin CT, Smith CD, Heden TD, McMillin SL, Weyrauch LA, Stanley EC, Schmidt CA, Kilburg-Basnyat BB, Reece SW, Psaltis CE, Leinwand LA, Funai K, McClung JM, Gowdy KM, Witczak CA, Lowe DA, Neufer PD, Spangenburg EE (2019) Estrogen receptor-Ī± in female skeletal muscle is not required for regulation of muscle insulin sensitivity and mitochondrial regulation. Mol Metab 34:1-15. | ||
|info=[https://www.sciencedirect.com/science/article/pii/S2212877819309615 Open Access] | |info=[https://www.sciencedirect.com/science/article/pii/S2212877819309615 Open Access] | ||
|authors=Inigo MR, Amorese AJ, Tarpey MD, Balestrieri NP, Jones KG, Patteson DJ, Jackson KC, Torres MJ, Lin CT, Smith CD, Heden TD, McMillin SL, Weyrauch LA, Stanley EC, Schmidt CA, Kilburg-Basnyat BB, Reece SW, Psaltis CE, Leinwand LA, Funai | |authors=Inigo MR, Amorese AJ, Tarpey MD, Balestrieri NP, Jones KG, Patteson DJ, Jackson KC, Torres MJ, Lin CT, Smith CD, Heden TD, McMillin SL, Weyrauch LA, Stanley EC, Schmidt CA, Kilburg-Basnyat BB, Reece SW, Psaltis CE, Leinwand LA, Funai Katsuhiko, McClung JM, Gowdy KM, Witczak CA, Lowe DA, Neufer PD, Spangenburg EE, | ||
|year= | |year=2019 | ||
|journal=Mol Metab | |journal=Mol Metab | ||
|abstract=Estrogen receptor-Ī± (ERĪ±) is a nuclear receptor family member thought to substantially contribute to the metabolic regulation of skeletal muscle. However, previous mouse models utilized to assess the necessity of ERĪ± signaling in skeletal muscle were confounded by altered developmental programming and/or influenced by secondary effects, making it difficult to assign a causal role for ERĪ±. The objective of this study was to determine the role of skeletal muscle ERĪ± in regulating metabolism in the absence of confounding factors of development. | |abstract=Estrogen receptor-Ī± (ERĪ±) is a nuclear receptor family member thought to substantially contribute to the metabolic regulation of skeletal muscle. However, previous mouse models utilized to assess the necessity of ERĪ± signaling in skeletal muscle were confounded by altered developmental programming and/or influenced by secondary effects, making it difficult to assign a causal role for ERĪ±. The objective of this study was to determine the role of skeletal muscle ERĪ± in regulating metabolism in the absence of confounding factors of development. | ||
| Line 17: | Line 17: | ||
}} | }} | ||
{{Labeling | {{Labeling | ||
|area=Respiration, Genetic knockout;overexpression | |area=Respiration, Genetic knockout;overexpression, Gender | ||
|organism=Mouse | |organism=Mouse | ||
|tissues=Skeletal muscle | |tissues=Skeletal muscle | ||
Latest revision as of 02:28, 1 March 2020
| Inigo MR, Amorese AJ, Tarpey MD, Balestrieri NP, Jones KG, Patteson DJ, Jackson KC, Torres MJ, Lin CT, Smith CD, Heden TD, McMillin SL, Weyrauch LA, Stanley EC, Schmidt CA, Kilburg-Basnyat BB, Reece SW, Psaltis CE, Leinwand LA, Funai K, McClung JM, Gowdy KM, Witczak CA, Lowe DA, Neufer PD, Spangenburg EE (2019) Estrogen receptor-Ī± in female skeletal muscle is not required for regulation of muscle insulin sensitivity and mitochondrial regulation. Mol Metab 34:1-15. |
Ā» Open Access
Inigo MR, Amorese AJ, Tarpey MD, Balestrieri NP, Jones KG, Patteson DJ, Jackson KC, Torres MJ, Lin CT, Smith CD, Heden TD, McMillin SL, Weyrauch LA, Stanley EC, Schmidt CA, Kilburg-Basnyat BB, Reece SW, Psaltis CE, Leinwand LA, Funai Katsuhiko, McClung JM, Gowdy KM, Witczak CA, Lowe DA, Neufer PD, Spangenburg EE (2019) Mol Metab
Abstract: Estrogen receptor-Ī± (ERĪ±) is a nuclear receptor family member thought to substantially contribute to the metabolic regulation of skeletal muscle. However, previous mouse models utilized to assess the necessity of ERĪ± signaling in skeletal muscle were confounded by altered developmental programming and/or influenced by secondary effects, making it difficult to assign a causal role for ERĪ±. The objective of this study was to determine the role of skeletal muscle ERĪ± in regulating metabolism in the absence of confounding factors of development.
A novel mouse model was developed allowing for induced deletion of ERĪ± in adult female skeletal muscle (ERĪ±KOism). ERĪ±shRNA was also used to knockdown ERĪ± (ERĪ±KD) in human myotubes cultured from primary human skeletal muscle cells isolated from muscle biopsies from healthy and obese insulin-resistant women.
Twelve weeks of HFD exposure had no differential effects on body composition, VO2, VCO2, RER, energy expenditure, and activity counts across genotypes. Although ERĪ±KOism mice exhibited greater glucose intolerance than wild-type (WT) mice after chronic HFD, ex vivo skeletal muscle glucose uptake was not impaired in the ERĪ±KOism mice. Expression of pro-inflammatory genes was altered in the skeletal muscle of the ERĪ±KOism, but the concentrations of these inflammatory markers in the systemic circulation were either lower or remained similar to the WT mice. Finally, skeletal muscle mitochondrial respiratory capacity, oxidative phosphorylation efficiency, and H2O2 emission potential was not affected in the ERĪ±KOism mice. ERĪ±KD in human skeletal muscle cells neither altered differentiation capacity nor caused severe deficits in mitochondrial respiratory capacity.
Collectively, these results suggest that ERĪ± function is superfluous in protecting against HFD-induced skeletal muscle metabolic derangements after postnatal development is complete. ā¢ Keywords: Estrogen receptor-alpha, Skeletal muscle, Metabolism, Insulin sensitivity, Inflammation, Mitochondrial function ā¢ Bioblast editor: Plangger M ā¢ O2k-Network Lab: US NC Greenville Neufer PD, US UT Salt Lake City Funai K
Labels: MiParea: Respiration, Genetic knockout;overexpression, Gender
Organism: Mouse
Tissue;cell: Skeletal muscle
Preparation: Permeabilized tissue
Regulation: ATP production Coupling state: LEAK, OXPHOS Pathway: F, N, S, CIV, NS, ROX HRR: Oxygraph-2k
Labels, 2020-01
