Nanovesicles containing curcumin hold promise in the development of new formulations of anti-Acanthamoebic agents
•The effects of curcumin-nanoformulations were investigated against A. castellanii.•Curcumin-loaded nanovesicles exhibited potent amoebicidal effects.•Nanovesicles had no effects on human cells using cytotoxicity assay. In this study, curcumin-nanoformulations were tested for anti-Acanthamoebic prop...
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Veröffentlicht in: | Molecular and biochemical parasitology 2022-01, Vol.247, p.111430-111430, Article 111430 |
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Sprache: | eng |
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Zusammenfassung: | •The effects of curcumin-nanoformulations were investigated against A. castellanii.•Curcumin-loaded nanovesicles exhibited potent amoebicidal effects.•Nanovesicles had no effects on human cells using cytotoxicity assay.
In this study, curcumin-nanoformulations were tested for anti-Acanthamoebic properties. Curcumin-loaded nanovesicles were synthesized, followed by characterization with Fourier transform infrared spectroscopy, ultraviolet-visible spectrophotometry, and atomic force microscopy. Using amoebicidal assay, the effects of curcumin-nanoformulations were investigated against A. castellanii belonging to the T4 genotype. To determine the effects of curcumin-nanoformulations on host cells, cytotoxicity assays were performed using human keratinocyte cells (HaCat). The results revealed that nanovesicles formulation of curcumin enhanced the anti-Acanthamoebic effects of curcumin as compared with curcumin alone. The viability decreased with increasing concentration of curcumin and/or lipid-based carrier (Noisome) (FCBR18) in a dose-dependent manner. Curcumin and curcumin-loaded nanovesicles exhibited minimal cytotoxic effects against human cells in all tested concentrations. Both concentrations of FCBR18 proved effective in inhibiting amoebae excystation. In contrast, curcumin alone showed insignificant effects against amoebae excystation.
Taken together, these findings clearly showed that curcumin-loaded nanovesicles show enhanced anti-Acanthamoebic efficacy without harming human cells, and these nanotherapeutics may hold promise in the development of new formulations of anti-Acanthamoebic agents. |
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ISSN: | 0166-6851 1872-9428 |
DOI: | 10.1016/j.molbiopara.2021.111430 |