Abstract
Propolis contains many effective antifungal compounds that have not yet been identified and evaluated. In addition, distinguishing samples of propolis with high antifungal activity from less active ones would be beneficial for effective therapy. Propolis samples were collected from four different geographical regions in Hungary and used to prepare ethanol extracts for analysis. First, an antifungal susceptibility test was performed on Candida albicans. Then, gas chromatography-mass spectrometry (GC-MS) and an opto-electronic nose were applied for the classification of propolis samples. In three propolis samples, the IC50 was measured between 72 and 134 µg/mL, but it was not calculable in the fourth sample. GC-MS analysis of the four propolis samples identified several compounds belonging to the various chemical classes. In the antifungal samples, the relative concentration of 11,14-eicosadienoic acid was the highest. Based on the opto-electronic electronic nose measurements, 98.4% of the original grouped antifungal/non-antifungal cases were classified correctly. We identified several molecules from propolis with potential antifungal properties. In addition, this is the first report to demonstrate the usefulness of a portable opto-electronic nose to identify propolis samples with high antifungal activity. These results may contribute to the rapid and efficient selection of new fungicide-candidate molecules and effective propolis samples for treatment.
Highlights
Propolis is a generic name for an adhesive material gathered by honeybees to maintain and protect their hive [1]
Several studies have aimed to collect data concerning the antifungal properties of propolis, and the results were positive; differences in the antifungal properties were observed in different propolis samples because of their varying chemical composition, geographical origin, season of collection, flora, and method of extraction [4,5]
The cytotoxicities of ethanol extracts of propolis (EEPs) were characterised by determining the antifungal susceptibility of C. albicans cells after 48 h of using the microdilution method
Summary
Propolis is a generic name for an adhesive material gathered by honeybees to maintain and protect their hive [1]. Evidence for the use of propolis has existed since 300 BC, and it has been used thereafter for various purposes: in dermatological products to treat various skin conditions (e.g., psoriasis and herpes simplex), to treat rheumatism and sprains, and in dental medicine as an anaesthetic agent and possible treatment for gingivitis, cheilitis, and stomatitis [2]. Propolis has antifungal activity alone [6,7] and functions synergistically when used simultaneously with other antifungal agents against Trichophyton, Mycrosporum, and Candida albicans [8]. A study using propolis extract showed antifungal activity towards fungi in both the planktonic form and in biofilms [9]. Using propolis as a topical antifungal agent or complementary substance in antifungal medicines has been considered [2,9] because
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