Abstract

BackgroundHigh-purine diet can cause gut microbiota disorder, which is closely related to the occurrence of hyperuricemia (HUA). At the same time, the development of HUA is often accompanied by renal impairment. Chicory, a natural medicine, has a significant effect on lowering uric acid. However, whether its concrete mechanism is associated with the regulation of gut microbiota and renal damage is still unclear. MethodsHyperuricemic quails induced by high-purine diet were used, and quails were divided into control (CON), model (MOD), and model plus high, middle, low doses of chicory. The uricosuric effect was evaluated by detecting the uric acid levels in serum and feces. Meanwhile, the morphology of intestine and kidney were observed by hematoxylin and eosin (HE) staining, and the expression of intestinal barrier junction proteins Occludin, Claudin-1 were detected by quantitative real-time polymerase chain reaction (qPCR) and western blotting. Furthermore, the latent mechanism was clarified by analyzing 16S rRNA amplicon of gut microbiota and measuring the changes of LPS/TLR4 axis inflammatory response of the kidney by western blotting and enzyme-linked immunosorbent assay (ELISA). ResultsThe results showed that serum uric acid levels were significantly decreased, and the feces uric acid levels were noticeably increased after the intervention of chicory. In addition, chicory could repair the damage of intestinal mucosa and improve the permeability of intestinal barrier. Moreover, the 16S rRNA sequencing analysis uncovered that chicory restored gut microbiota by increasing the probiotics flora (Bifidobacterium, Erysipelotrichaceae) and reducing the pathogenic bacteria group (Helicobacteraceae). Furthermore, it was found that chicory reduced the LPS/TLR4 axis inflammatory response by down regulating the serum LPS and TLR4/NF-κB inflammatory pathway in kidney, thus promoting the excretion of uric acid in kidney. ConclusionChicory intervention ameliorated HUA via modulating the imbalance of gut microbiota and suppressing LPS/TLR4 axis inflammatory reaction in quail model, which may be a promising candidate for hyperuricemia-relieving properties.

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