Efficacy of ferulic acid encapsulated chitosan nanoparticles against Candida albicans biofilm

Candida albicans, an opportunistic fungal pathogen is a major causative agent of superficial to systemic life-threating biofilm infections on indwelling medical devices. These biofilms acts as double edge swords owing to their resistance towards antibiotics and immunological barriers. To overcome th...

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Veröffentlicht in:	Microbial pathogenesis 2016-06, Vol.95, p.21-31
Hauptverfasser:	Panwar, Richa, Pemmaraju, Suma C., Sharma, Asvene K., Pruthi, Vikas
Format:	Artikel
Sprache:	eng
Schlagworte:	Antibiofilm activity Antifungal Agents - pharmacology Biocompatible Materials - metabolism Biofilms - drug effects Candida albicans Candida albicans - drug effects Candida albicans - metabolism Candida albicans - physiology Cell Line Cell Survival - drug effects Chitosan - metabolism Chitosan nanoparticles Coumaric Acids - pharmacology Cytocompatibility Drug Carriers - metabolism Epithelial Cells - drug effects Epithelial Cells - physiology Ferulic acid FESEM Formazans - analysis Humans Magnetic Resonance Spectroscopy Microscopy, Electron, Scanning Microscopy, Fluorescence Nanoparticles - chemistry Nanoparticles - metabolism Nanoparticles - toxicity Nanoparticles - ultrastructure Spectroscopy, Fourier Transform Infrared Staining and Labeling
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description	Candida albicans, an opportunistic fungal pathogen is a major causative agent of superficial to systemic life-threating biofilm infections on indwelling medical devices. These biofilms acts as double edge swords owing to their resistance towards antibiotics and immunological barriers. To overcome this threat ferulic acid encapsulated chitosan nanoparticles (FA-CSNPs) were formulated to assess its efficacy as an antibiofilm agent against C. albicans. These FA-CSNPs were synthesized using ionotropic gelation method and observed through field emission scanning electron microscopy (FESEM) and fluorescent microscopy. Assessment of successful encapsulation and stability of ferulic acid into chitosan nanoparticles was made using Fourier transform infrared spectrum (FTIR), 1H NMR and thermal analyses. Synthesized FA-CSNPs, were found to be cytocompatible, when tested using Human Embryonic Kidney (HEK-293) cell lines. XTT assay revealed that FA-CSNPs reduced the cell metabolic activity of C. albicans upto 22.5% as compared to native ferulic acid (63%) and unloaded CSNPs (88%) after 24 h incubation. Disruption of C. albicans biofilm architecture was visualized by FESEM. Results highlighted the potential of FA-CSNPs to be used as an effective alternative to the conventional antifungal therapeutics. [Display omitted] •Cost effective and simple preparation of ferulic acid-chitosan nanoparticles (NPs).•Size, morphology and other physico-chemical characterization of NPs.•NPs exhibited enhanced cytocompatibility compared to native ferulic acid.•Reduced Candida albicans biofilm cell viability up to 22.5%.•Complete damage of cell due to plasmolysis as visualized using FE-SEM.
doi_str_mv	10.1016/j.micpath.2016.02.007
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These biofilms acts as double edge swords owing to their resistance towards antibiotics and immunological barriers. To overcome this threat ferulic acid encapsulated chitosan nanoparticles (FA-CSNPs) were formulated to assess its efficacy as an antibiofilm agent against C. albicans. These FA-CSNPs were synthesized using ionotropic gelation method and observed through field emission scanning electron microscopy (FESEM) and fluorescent microscopy. Assessment of successful encapsulation and stability of ferulic acid into chitosan nanoparticles was made using Fourier transform infrared spectrum (FTIR), 1H NMR and thermal analyses. Synthesized FA-CSNPs, were found to be cytocompatible, when tested using Human Embryonic Kidney (HEK-293) cell lines. XTT assay revealed that FA-CSNPs reduced the cell metabolic activity of C. albicans upto 22.5% as compared to native ferulic acid (63%) and unloaded CSNPs (88%) after 24 h incubation. Disruption of C. albicans biofilm architecture was visualized by FESEM. Results highlighted the potential of FA-CSNPs to be used as an effective alternative to the conventional antifungal therapeutics. [Display omitted] •Cost effective and simple preparation of ferulic acid-chitosan nanoparticles (NPs).•Size, morphology and other physico-chemical characterization of NPs.•NPs exhibited enhanced cytocompatibility compared to native ferulic acid.•Reduced Candida albicans biofilm cell viability up to 22.5%.•Complete damage of cell due to plasmolysis as visualized using FE-SEM.</description><identifier>ISSN: 0882-4010</identifier><identifier>EISSN: 1096-1208</identifier><identifier>DOI: 10.1016/j.micpath.2016.02.007</identifier><identifier>PMID: 26930164</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Antibiofilm activity ; Antifungal Agents - pharmacology ; Biocompatible Materials - metabolism ; Biofilms - drug effects ; Candida albicans ; Candida albicans - drug effects ; Candida albicans - metabolism ; Candida albicans - physiology ; Cell Line ; Cell Survival - drug effects ; Chitosan - metabolism ; Chitosan nanoparticles ; Coumaric Acids - pharmacology ; Cytocompatibility ; Drug Carriers - metabolism ; Epithelial Cells - drug effects ; Epithelial Cells - physiology ; Ferulic acid ; FESEM ; Formazans - analysis ; Humans ; Magnetic Resonance Spectroscopy ; Microscopy, Electron, Scanning ; Microscopy, Fluorescence ; Nanoparticles - chemistry ; Nanoparticles - metabolism ; Nanoparticles - toxicity ; Nanoparticles - ultrastructure ; Spectroscopy, Fourier Transform Infrared ; Staining and Labeling</subject><ispartof>Microbial pathogenesis, 2016-06, Vol.95, p.21-31</ispartof><rights>2016 Elsevier Ltd</rights><rights>Copyright © 2016 Elsevier Ltd. 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These biofilms acts as double edge swords owing to their resistance towards antibiotics and immunological barriers. To overcome this threat ferulic acid encapsulated chitosan nanoparticles (FA-CSNPs) were formulated to assess its efficacy as an antibiofilm agent against C. albicans. These FA-CSNPs were synthesized using ionotropic gelation method and observed through field emission scanning electron microscopy (FESEM) and fluorescent microscopy. Assessment of successful encapsulation and stability of ferulic acid into chitosan nanoparticles was made using Fourier transform infrared spectrum (FTIR), 1H NMR and thermal analyses. Synthesized FA-CSNPs, were found to be cytocompatible, when tested using Human Embryonic Kidney (HEK-293) cell lines. XTT assay revealed that FA-CSNPs reduced the cell metabolic activity of C. albicans upto 22.5% as compared to native ferulic acid (63%) and unloaded CSNPs (88%) after 24 h incubation. Disruption of C. albicans biofilm architecture was visualized by FESEM. Results highlighted the potential of FA-CSNPs to be used as an effective alternative to the conventional antifungal therapeutics. 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These biofilms acts as double edge swords owing to their resistance towards antibiotics and immunological barriers. To overcome this threat ferulic acid encapsulated chitosan nanoparticles (FA-CSNPs) were formulated to assess its efficacy as an antibiofilm agent against C. albicans. These FA-CSNPs were synthesized using ionotropic gelation method and observed through field emission scanning electron microscopy (FESEM) and fluorescent microscopy. Assessment of successful encapsulation and stability of ferulic acid into chitosan nanoparticles was made using Fourier transform infrared spectrum (FTIR), 1H NMR and thermal analyses. Synthesized FA-CSNPs, were found to be cytocompatible, when tested using Human Embryonic Kidney (HEK-293) cell lines. XTT assay revealed that FA-CSNPs reduced the cell metabolic activity of C. albicans upto 22.5% as compared to native ferulic acid (63%) and unloaded CSNPs (88%) after 24 h incubation. Disruption of C. albicans biofilm architecture was visualized by FESEM. Results highlighted the potential of FA-CSNPs to be used as an effective alternative to the conventional antifungal therapeutics. [Display omitted] •Cost effective and simple preparation of ferulic acid-chitosan nanoparticles (NPs).•Size, morphology and other physico-chemical characterization of NPs.•NPs exhibited enhanced cytocompatibility compared to native ferulic acid.•Reduced Candida albicans biofilm cell viability up to 22.5%.•Complete damage of cell due to plasmolysis as visualized using FE-SEM.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>26930164</pmid><doi>10.1016/j.micpath.2016.02.007</doi><tpages>11</tpages></addata></record>
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subjects	Antibiofilm activity Antifungal Agents - pharmacology Biocompatible Materials - metabolism Biofilms - drug effects Candida albicans Candida albicans - drug effects Candida albicans - metabolism Candida albicans - physiology Cell Line Cell Survival - drug effects Chitosan - metabolism Chitosan nanoparticles Coumaric Acids - pharmacology Cytocompatibility Drug Carriers - metabolism Epithelial Cells - drug effects Epithelial Cells - physiology Ferulic acid FESEM Formazans - analysis Humans Magnetic Resonance Spectroscopy Microscopy, Electron, Scanning Microscopy, Fluorescence Nanoparticles - chemistry Nanoparticles - metabolism Nanoparticles - toxicity Nanoparticles - ultrastructure Spectroscopy, Fourier Transform Infrared Staining and Labeling
title	Efficacy of ferulic acid encapsulated chitosan nanoparticles against Candida albicans biofilm
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