Abstract

Ethnopharmacological relevanceHelicobacter pylori (H. pylori) infections are on the rise, presenting a significant global health challenge. Mass Galla chinesis et camelliae Fermentata (Chinese gall leaven, CGL), a traditional Chinese medicinal product made from the fermentation of Rhus chinensis Mill., is frequently employed to address digestive system ailments. Contemporary pharmacological research reveals that CGL exhibits anti-inflammatory, anti-diarrheal, and enzyme-inhibitory activities and holds potential as a treatment for H. pylori infections. However, the precise mechanisms underlying CGL's efficacy against H. pylori remain to be fully elucidated. AimThe objective of the study is to evaluate CGL's ability to disrupt the H. pylori biofilm and to explore its synergistic potential with antibiotics in targeting the biofilm-efflux pump system, a mechanism implicated in bacterial resistance. MethordsThe study determined the Minimum Inhibitory Concentration (MIC) of CGL and metronidazole against H. pylori and evaluated their effects on H. pylori biofilms using an in vitro model. Structural changes induced by drug interventions were compared to those in untreated and antibiotic-treated models through scanning electron microscopy and laser confocal microscopy. The accumulation of H33342 dye in planktonic and biofilm H. pylori before and after drug treatment was assessed to evaluate cell viability and biofilm disruption. The study also involved adding experimental drugs to a biofilm H. pylori medium containing D-glucose, measuring glucose concentrations post-intervention using the glucose oxidase method, and calculating changes in glucose uptake. Finally, the relative expression levels of several genes in planktonic and biofilm H. pylori treated with CGL alone or in combination with antibiotics were measured to understand the impact on the biofilm-efflux pump system. ResultsBoth CGL alone and in combination with metronidazole demonstrated effective disruption of H. pylori biofilms. The combination therapy was particularly effective in reducing the biofilm transfer-enhancing effect of metronidazole and decreasing SpoT expression in the 'SpoT-(p)ppGpp' pathway, especially in biofilms. It showed a greater inhibition of the 'σ54-gluP-sugar uptake' pathway, with significant reductions in rpoN and gluP expression under biofilm conditions compared to CGL or metronidazole alone. The treatment also suppressed H. pylori proliferation and may have altered glucose uptake mechanisms. Moreover, it significantly inhibited the 'hp0939/hp0497/hp0471-RND efflux pump' pathway, with a notable reduction in gene expression compared to the 1/2 MIC metronidazole treatment. ConclusionThis study demonstrates that CGL effectively hinders the development of drug resistance in H. pylori by targeting biofilm formation and critical molecular pathways associated with antibiotic resistance. The synergistic effect of combining CGL with metronidazole notably enhances biofilm disruption and inhibits the bacterium's metabolic and reparative mechanisms. Further in vivo studies are needed to confirm these results and to investigate additional mechanisms of CGL's action.

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