Mi Kyung Sung scite author profile

Skeletal muscle inflammation and atrophy are closely associated with metabolic impairment such as insulin resistance. Quercetin, a natural polyphenol flavonoid, is known to elicit anti-inflammatory and antioxidant activities. In this study, we investigated its effect on obesity-induced skeletal muscle inflammation and atrophy in mice. Male C57BL/6 mice were fed a regular diet, a high-fat diet (HFD), and an HFD supplemented with quercetin for nine weeks. Quercetin reduced levels of inflammatory cytokines and macrophage accumulation in the skeletal muscle of the HFD-fed obese mice. It also reduced transcript and protein levels of the specific atrophic factors, Atrogin-1 and MuRF1, in the skeletal muscle of the HFD-fed obese mice, and protected against the reduction of muscle mass and muscle fiber size. In vitro, quercetin markedly diminished transcript levels of inflammatory receptors and activation of their signaling molecules (ERK, p38 MAPK, and NF-κB) in cocultured myotubes/macrophages, and this was accompanied by reduced expression of the atrophic factors. Together, these findings suggest that quercetin reduces obesity-induced skeletal muscle atrophy by inhibiting inflammatory receptors and their signaling pathway. Quercetin may be useful for preventing obesity-induced muscle inflammation and sarcopenia.

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(−)-Epicatechin Gallate (ECG) Stimulates Osteoblast Differentiation via Runt-related Transcription Factor 2 (RUNX2) and Transcriptional Coactivator with PDZ-binding Motif (TAZ)-mediated Transcriptional Activation

Byun

Sung

Kim

et al. 2014

Journal of Biological Chemistry

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Background: Catechins in green tea have a beneficial effect in bone formation, but the detailed mechanism is not fully understood. Results: ECG, a major compound of green tea, stimulates TAZ-and RUNX2-mediated osteogenic gene transcription through PP1A. Conclusion: ECG stimulates osteoblast differentiation through a transcriptional activation. Significance: A novel mechanism for green tea-stimulated osteoblast differentiation is revealed.

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The Soy Peptide Phe–Leu–Val Reduces TNFα-Induced Inflammatory Response and Insulin Resistance in Adipocytes

Kwak

Kim

Choi

et al. 2016

Journal of Medicinal Food

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Obesity-induced adipose inflammation plays a crucial role in the development of obesity-induced metabolic disorders such as insulin resistance and type 2 diabetes. In the presence of obesity, hypertrophic adipocytes release inflammatory mediators, including tumor necrosis factor-alpha (TNFα) and monocyte chemoattractant protein-1 (MCP-1), which enhance the recruitment and activation of macrophages, and in turn augment adipose inflammation. We demonstrate that the soy peptide Phe-Leu-Val (FLV) reduces inflammatory responses and insulin resistance in mature adipocytes. Specifically, the soy peptide FLV inhibits the release of inflammatory cytokines (TNFα, MCP-1, and IL-6) from both TNFα-stimulated adipocytes and cocultured adipocytes/macrophages. This inhibition is mediated by the inactivation of the inflammatory signaling molecules c-Jun N-terminal kinase (JNK) and IκB kinase (IKK), and the downregulation of IκBα in the adipocytes. In addition, soy peptide FLV enhances insulin responsiveness and increases glucose uptake in adipocytes. More importantly, we, for the first time, found that adipocytes express peptide transporter 2 (PepT2) protein, and the beneficial action of the soy peptide FLV was disrupted by the peptide transporter inhibitor GlySar. These findings suggest that soy peptide FLV is transported into adipocytes by PepT2 and then downregulates TNFα-induced inflammatory signaling, thereby increasing insulin responsiveness in the cells. The soy peptide FLV, therefore, has the potential to prevent obesity-induced adipose inflammation and insulin resistance.

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Phorbaketal A stimulates osteoblast differentiation through TAZ mediated Runx2 activation

et al. 2012

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Osteoporosis arises from an imbalance between osteoblastic bone formation and osteoclastic bone resorption. In this study, we screened molecules from marine natural products that stimulate osteoblast differentiation. We found that phorbaketal A significantly stimulates osteoblast differentiation in mesenchymal cells. Increased interaction of TAZ and Runx2 stimulated phorbaketal A-induced expression of osteoblastic marker genes. The activation of ERK was important for the stimulation of differentiation because an inhibitor of ERK blocked phorbaketal A-induced osteogenic differentiation. Taken together, the results showed that phorbaketal A stimulates TAZ-mediated osteoblast differentiation through the activation of ERK.

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Mi Kyung Sung

Long‐term adaptation of global transcription and metabolism in the liver of high‐fat diet‐fed C57BL/6J mice

Quercetin Protects against Obesity-Induced Skeletal Muscle Inflammation and Atrophy

(−)-Epicatechin Gallate (ECG) Stimulates Osteoblast Differentiation via Runt-related Transcription Factor 2 (RUNX2) and Transcriptional Coactivator with PDZ-binding Motif (TAZ)-mediated Transcriptional Activation

The Soy Peptide Phe–Leu–Val Reduces TNFα-Induced Inflammatory Response and Insulin Resistance in Adipocytes

Phorbaketal A stimulates osteoblast differentiation through TAZ mediated Runx2 activation

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