Tryptophan and polyamine metabolism dysregulation serves as an early marker of high-fat diet-induced glucose intolerance
Jianfang Gao, Li Zhang, Shumin Zhan, Zhou Peng, Juan Du, Zhongxiao Zhang, Liling Xu, Shan Huang, Xingyun Wang, Xirong Guo

TL;DR
Early high-fat diet exposure in mice causes metabolic changes before glucose intolerance, with potential biomarkers in tryptophan and polyamine metabolism.
Contribution
Identifies early metabolic biomarkers of high-fat diet-induced obesity, including tryptophan and polyamine metabolism dysregulation.
Findings
Week 3 of HFD feeding marks a critical turning point in metabolic dysfunction in mice.
Early HFD exposure alters tryptophan, polyamine, and glycerophospholipid metabolism before glucose intolerance.
Serotonin, formiminoglutamate, inosine, and spermine are potential early biomarkers of HFD-induced obesity.
Abstract
A high-fat diet (HFD) induces metabolic dysfunction early, before the onset of the classic obese phenotype. However, understanding this early process remains limited, and potential diagnostic systems are still poorly investigated, particularly in childhood obesity. Continuous blood glucose monitoring was performed in mice to evaluate the early metabolic effects of HFD exposure. Metabolomic and transcriptomic analyses were conducted to characterize metabolic and transcriptional changes at various HFD feeding stages and investigate underlying mechanisms. Venn analysis was applied to identify metabolites specific to early HFD exposure. These metabolites were further compared with those detected in obese children to identify potential early warning biomarkers of obesity. Week 3 of HFD feeding was identified as a critical turning point in metabolic dysfunction in mice. Metabolomic profiling…
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Taxonomy
TopicsMetabolomics and Mass Spectrometry Studies · Polyamine Metabolism and Applications · Diabetes and associated disorders
