ABSTRACT
The objective of this work was to evaluate the anti-fatigue efficacy of Astragali Radix (AR) from the Shanxi Hengshan area and to reveal possible mechanisms by which it relieves fatigue. Efficacy differences between Guangling (GL) and Hunyuan (HY) AR preparations were compared and evaluated, and an 1H NMR metabolomic technique combined with statistical methods was used to identify the metabolites in different groups of mouse gastrocnemius muscle tissues. The differential metabolites after AR treatments were identified according to VIP and P values and the upstream targets were predicted with the help of Metscape. Cytoscape software was utilized to construct a network map of AR potential anti-fatigue targets. Key differential metabolites were identified based on shared targets and entered into the Metaboanalyst website for pathway enrichment analysis, which led to the preliminary elucidation of the molecular mechanisms. The results showed that intervention with AR can significantly improve the swimming-to-exhaustion time, increase liver glycogen, and reduce urea-nitrogen levels in mice. The difference between GL and HY ARs was relatively small, indicating that the quality of AR produced in the Hengshan area is consistent and stable. The metabolic fingerprints of mouse gastrocnemius muscle tissue extracts were composed of 34 metabolites, and the statistical results showed that 19 differential metabolites were significantly reversed after the Hengshan AR intervention. We found that the anti-fatigue effects of AR in the Shanxi Hengshan area were mainly associated with taurine and hypotaurine metabolism through regulation of GAD1, based on network pharmacological analysis. In conclusion, 1H NMR metabolomic techniques were combined with network pharmacology to compare and evaluate the quality of Hengshan ARs, and further associate the fatigue relieve with the regulation of taurine metabolism. This provides a theoretical basis for the resource utilization of Hengshan ARs and the development of anti-fatigue-related products. The animal experiments in this study followed the regulations of the Animal Ethics Committee of Shanxi University and passed the ethical review of animal experiments (Approval No. SXULL2021028).