Quercetin and Derivatives Ameliorate Metabolic Disturbances by Regulating Gut Metabolite Profiles in Mice with Circadian Rhythm Disruption and High-Fat Diet
Hao Jiang, Yiling Xie, Xiaoqing Zheng, Jiali Lai, Xiangyun Chen, Xiantao Zheng, Hongwei Zhao, Weidong Bai

TL;DR
Quercetin and its derivatives help reduce metabolic issues in mice caused by disrupted sleep and high-fat diets by changing gut metabolites.
Contribution
The study demonstrates quercetin's ability to regulate gut metabolites in a dual model of circadian and dietary stress.
Findings
Quercetin and derivatives significantly altered intestinal metabolite profiles in mice.
Metabolic abnormalities from circadian disruption and high-fat diets were alleviated.
Findings support quercetin's potential in functional food development for metabolic health.
Abstract
Background: Amidst evolving modern lifestyles characterized by widespread circadian rhythm disturbances and high-fat dietary habits, the incidence of metabolic disorders continues to escalate. In recent years, plant-derived bioactive compounds have attracted considerable interest as therapeutic candidates, with quercetin and its derivatives demonstrating promising potential for the regulation of metabolism. Methods: This study employed a dual-induction model of metabolic dysregulation, elicited through both circadian rhythm disruption and a high-fat diet, to systematically evaluate the regulatory effects of quercetin and its derivatives on mice through dual stimulation by circadian rhythm disruption and a high-fat diet. Results and Conclusions: Non-targeted fecal metabolomics analysis indicates that quercetin and its derivatives significantly alter the intestinal metabolite profile in…
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Taxonomy
TopicsCircadian rhythm and melatonin · Metabolomics and Mass Spectrometry Studies · Diet and metabolism studies
