Evaluation of the Antibacterial Activity of Rheum palmatum Processed by Different Methods Against Staphylococcus aureus using Integrated in vitro and in silico Approaches.

Authors

Shane Marie S Coronel, Cheng-Yang Hsieh, Kathlia A De Castro-Cruz, Hung-Yu Shu, Po-Wei Tsai

Published in

Current pharmaceutical design. Aug 28, 2025. Epub Aug 28, 2025.

Abstract

Traditional Chinese Medicine (TCM) employs various processing methods to enhance the bioactivity of herbs. Rheum palmatum (R. palmatum) is commonly processed to optimize its medicinal properties, yet its antibacterial activity under different processing techniques remains unclear. Standardizing preparation methods is essential for ensuring consistent therapeutic efficacy. This study examines how different processing methods influence the antibacterial activity of R. palmatum, contributing to the standardization of TCM preparation.
R. palmatum roots underwent 10 different water-based processing methods. Antibacterial activity against S. aureus was assessed using disc diffusion and broth microdilution assays. The most effective extracts were further analyzed via molecular docking to evaluate their binding interactions with bacterial virulence proteins (α-hemolysin and Catalase).
Disc diffusion and MIC results showed that RP-4 (high-pressure steamed with wine) exhibited the largest inhibition zone (11.67 mm) and the lowest MIC (1250 μg/mL). Compared to other tested microorganisms, selective inhibition was also observed against S. aureus. Molecular docking revealed that Rhein, a major active compound identified in the RP-4 extract, exhibited strong binding affinity to α-hemolysin and Catalase, comparable to standard antibiotics.
RP-4, processed through high-pressure steaming with wine, showed the strongest antibacterial activity based on ZOI and MIC results. Wine processing enhances the dissolution of active compounds, while high-pressure steaming reduces anthraquinone derivatives that cause digestive problems. Molecular docking also confirmed interactions between Rhein and the virulent proteins α-hemolysin and Catalase, suggesting a potential mechanism for inhibiting S. aureus.
Processing methods significantly influence the antibacterial properties of R. palmatum. RP-4 demonstrated the strongest activity against S. aureus, making it a promising candidate for future TCM formulation and antibacterial drug development.

PMID:
40910241
Bibliographic data and abstract were imported from PubMed on 05 Sep 2025.

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