In nickel-carbonite complexes the degree of CO2 activation depends on the nature of the alkali metal counterion, the strength of its interaction with the carbonite unit – and thus its spacial separation – as well as on further polar en...
Artikel
Targeting the Antifungal Activity of Carbon Dots against Candida albicans Biofilm Formation by Tailoring Their Surface Functional Groups
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Three classes of Carbon Dots with different composition and charged surfaces were prepared and completely characterised with regards to their morphology and physicochemical properties. We demonstrate the requirement of a positively-charged surface to exert antibiofilm formation by C. albicans paired with anti-adhesion and internalization properties, and with a mortality reduction of infected larvae in in vivo tests.
Abstract
Carbon dots (CDs) are an emerging class of carbon nanoparticles, which for their characteristics have found applications in many fields such as catalysis, materials and biomedicine. Within this context, the application of CDs as antibacterial agents has received much attention in very recent years, while their use as antifungal nanoparticles has been scarcely investigated. Here we report a systematic investigation of the surface functional groups of CDs to study their influence on these nanoparticles’ against Candida albicans. Three classes of CDs have been synthesised and fully characterized. A thorough in vitro and in vivo biological screening against C. albicans was performed to test their antifungal, antiadhesion and antibiofilm formation activities. Moreover, the interaction with C. albicans cells was investigated by microscopic analysis. Our results evidence how the presence of a positively polarised surface results crucial for the internalization into COS-7 cells. Positively charged nanoparticles were also able to inhibit adhesion and biofilm formation, to interact with the cellular membrane of C. albicans, and to increase the survival of G. mellonella infected larvae after the injection with positive nanoparticles. The antifungal activity of CDs and their extremely low toxicity may represent a new strategy to combat infections sustained by C.albicans.
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