Abstract
The majority of indigenes in the rural areas of Ghana use herbal medicines for their primary health care. In this study, an ethnobotanical survey was undertaken to document medicinal plants used by traditional healers in the Ejisu-Juaben district in the Ashanti region of Ghana to treat infections and to further investigate the antibiofilm formation properties of selected plants in resisting pathogenic bacteria. Seventy medicinal plants used by traditional practitioners for the treatment of skin infections and wounds were documented from the ethnobotanical survey. Forty out of the seventy plants were collected and their methanol extracts evaluated for antimicrobial activity by the agar diffusion assay. Extracts that showed antibacterial activity were tested for biofilm inhibitory activity, and the most active plant was subsequently purified to obtain the active constituents. Biofilm formation was significantly mitigated by petroleum ether, ethyl acetate, and methanol extracts of Holarrhena floribunda stem bark. Bioassay-guided fractionation of an alkaloidal extract prepared from the methanol fraction led to the isolation of three steroidal alkaloids, namely, holonamine, holadienine, and conessine. The isolated compounds demonstrated varying degrees of biofilm formation inhibitory properties. The current study reveals that screening of indigenous medicinal plants could unravel potential leads to salvage the declining efficacy of conventional antibiotics. Holarrhena floribunda stem bark extract has strong biofilm formation inhibition properties, which could be attributed to the presence of steroidal alkaloids.
Highlights
Antimicrobial resistance (AMR) has become a major public health concern worldwide as it reduces the effectiveness of antibiotic therapies and increases morbidity, mortality, and health care costs [1]
Current evidence suggests that freefloating bacteria attach onto solid surfaces and create a complex polysaccharide matrix called the biofilm, which protects them from antimicrobial agents [2,3]
Biofilms have great significance for public health because biofilm-associated microorganisms exhibit dramatically high resistance to antimicrobial agents than planktonic forms [4]. is is because in the biofilm state multiple bacterial species form a polymicrobial community with several advantages including a more efficient DNA sharing and quorum sensing system, passive resistance, and metabolic cooperation, which protects them from antimicrobial agents and host immune responses [5]
Summary
Antimicrobial resistance (AMR) has become a major public health concern worldwide as it reduces the effectiveness of antibiotic therapies and increases morbidity, mortality, and health care costs [1]. Biofilms have great significance for public health because biofilm-associated microorganisms exhibit dramatically high resistance to antimicrobial agents than planktonic forms [4]. Is is because in the biofilm state multiple bacterial species form a polymicrobial community with several advantages including a more efficient DNA sharing and quorum sensing system, passive resistance, and metabolic cooperation, which protects them from antimicrobial agents and host immune responses [5]. Some extracts of neotropical rainforest plants have shown remarkable biofilm inhibitory effects [1,6]. In the Advances in Pharmacological and Pharmaceutical Sciences rural and peri-urban areas like the Ejisu-Juaben district in the Ashanti region of Ghana, access to medical care is limited, and most indigenes rely on herbal medicine practitioners for their primary health needs. The biofilm formation inhibitory activities of selected plant extracts were investigated and some bioactive constituents identified
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