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Dietary eugenol ameliorates long-term high-fat diet-induced skeletal muscle atrophy: mechanistic insights from integrated multi-omics.

Mengjie LiJingya GuoYige QinYujie LaoSeong-Gook KangKunlun HuangTao Tong
Published in: Food & function (2024)
Eugenol (EU), the major constituent of clove oil, possesses a range of bioactivities. Here, the therapeutic potential of oral EU for mitigating skeletal muscle wasting was investigated in a long-term high-fat diet (HFD)-induced obese mice model. Male C57BL/6J mice, aged six weeks, were assigned to either a chow or a HFD for 10 weeks. Subsequently, the weight-matched HFD-fed mice were allocated into two groups, receiving either 0.2% (w/w) EU supplementation or no supplementation for 14 weeks. Our findings revealed that EU supplementation enhanced grip strength, increased hanging duration, and augmented skeletal muscle mass. RNA sequencing analysis demonstrated that EU modified the gastrocnemius muscle transcriptomic profile, and the differentially expressed genes between HFD and EU groups were mainly involved in the HIF-1 signaling pathway, TCR signaling pathway, and cGMP-PKG signaling pathway, which is well-known to be related to skeletal muscle health. Untargeted metabolomics analysis further showed that EU supplementation significantly altered the nucleotide metabolism in the GAS muscle. Analysis of 16S rRNA sequencing demonstrated that EU supplementation ameliorated the gut dysbiosis caused by HFD. The alterations in gut microbiota induced by EU were significantly correlated with indexes related to skeletal muscle atrophy. The multi-omics analysis presented the robust interaction among the skeletal muscle transcriptome, metabolome, and gut microbiome altered by EU supplementation. Our results highlight the potential of EU in skeletal muscle atrophy intervention as a functional dietary supplement.
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