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Aims Focusing on phytochemicals to target the virulence factors of Candida albicans is a promising avenue for novel antifungal compounds. Given the limited prior research on essential oil (EO) components and their specific effects on C. albicans virulence, our study aimed to explore their impact and uncover the underlying mechanisms. Methods and Results We examined the effects on viability, dimorphic transition, biofilm formation, and changes in the expression of critical virulence-related genes. The results showed that Dehydrocostus Lactone, displayed the most potent growth-inhibiting activity with the lowest MIC value, followed by Thymol, and Costunolide. A substantial, dose-dependent decrease in germ tube formation occurred after exposure to sub-inhibitory concentrations of the EO components, with Carvacrol, Dehydrocostus Lactone, and Thymol exerting the most potent inhibitory effects. Across sub-inhibitory concentrations, Alpha Bisabolol consistently showcased the most potent antibiofilm activity followed by lower but significant inhibitory effects with Dehydrocostus Lactone, Thymol, Alpha Pinene, Costunolide, Carvone, and Carvacrol. Alpha Bisabolol, Alpha Pinene and Dehydrocostus Lactone caused almost total downregulation of ACT1 whilst minimal changes occurred in expression of HWP1, SAP4, ALS3 and ECE1. Conclusions Considering that actin is essential for various cellular processes, including budding, cell shape maintenance, and the formation of filaments in C. albicans, it is a plausible hypothesis that inhibiting ACT1 or disturbing actin's normal functioning could potentially affect the fungus's virulence, which warrants additional research and exploration. This study underscores the potent antifungal and anti-virulence properties of various EO components which effectively cripple C. albicans and reduce its disease-causing ability. This innovative approach holds promise for effective clinical therapies.
Aims Focusing on phytochemicals to target the virulence factors of Candida albicans is a promising avenue for novel antifungal compounds. Given the limited prior research on essential oil (EO) components and their specific effects on C. albicans virulence, our study aimed to explore their impact and uncover the underlying mechanisms. Methods and Results We examined the effects on viability, dimorphic transition, biofilm formation, and changes in the expression of critical virulence-related genes. The results showed that Dehydrocostus Lactone, displayed the most potent growth-inhibiting activity with the lowest MIC value, followed by Thymol, and Costunolide. A substantial, dose-dependent decrease in germ tube formation occurred after exposure to sub-inhibitory concentrations of the EO components, with Carvacrol, Dehydrocostus Lactone, and Thymol exerting the most potent inhibitory effects. Across sub-inhibitory concentrations, Alpha Bisabolol consistently showcased the most potent antibiofilm activity followed by lower but significant inhibitory effects with Dehydrocostus Lactone, Thymol, Alpha Pinene, Costunolide, Carvone, and Carvacrol. Alpha Bisabolol, Alpha Pinene and Dehydrocostus Lactone caused almost total downregulation of ACT1 whilst minimal changes occurred in expression of HWP1, SAP4, ALS3 and ECE1. Conclusions Considering that actin is essential for various cellular processes, including budding, cell shape maintenance, and the formation of filaments in C. albicans, it is a plausible hypothesis that inhibiting ACT1 or disturbing actin's normal functioning could potentially affect the fungus's virulence, which warrants additional research and exploration. This study underscores the potent antifungal and anti-virulence properties of various EO components which effectively cripple C. albicans and reduce its disease-causing ability. This innovative approach holds promise for effective clinical therapies.
<b><i>Introduction:</i></b> Oral healthcare professionals play a crucial role in guiding patients toward evidence-based choices among the many available oral rinses. In this study, we explored how specific oral rinse formulations affect the viability and modulate critical virulence traits of the opportunistic fungal pathogen <i>Candida albicans.</i> <b><i>Materials and Methods:</i></b> We assessed the effects of these oral rinses on the production of germ tube, production of phospholipase and hemolysin, as well as biofilm formation. <b><i>Results:</i></b> We found that oral rinses containing cetylpyridinium chloride (CPC) and chlorhexidine (CHX) showed the greatest fungicidal activity with the lowest minimum fungicidal concentrations (0.38% and 0.78%, respectively). Oral rinses based on zinc chloride and sodium fluoride with Miswak bark extract (MIS) or essential oils (EO) had much lower fungicidal activity (8–16 times lower) compared to CHX and CPC. However, they had a significantly greater impact on the virulence traits of <i>C. albicans</i>. They reduced germ tube production by 86–89% (vs. 42% for CHX and 29% for CPC), completely inhibited phospholipase and hemolysin production, and together with the CPC-based oral rinse, exerted the greatest reductions in biofilm formation across all tested concentrations. This was in contrast to both the controls and CHX, which had a minimal effect on biofilm formation. <b><i>Conclusion:</i></b> By inhibiting the virulence factors, the oral rinse can have a crippling effect on <i>C. albicans</i>, weakening this opportunistic pathogen and hindering its potential to cause infection.
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