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Silver Nanoparticles Biosynthesized with Spruce Bark Extract—A Molecular Aggregate with Antifungal Activity against Candida Species

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dc.contributor.author Mare, Anca-Delia
dc.contributor.author Man, Adrian
dc.contributor.author Ciurea, Cristina-Nicoleta
dc.contributor.author Toma, Felicia
dc.contributor.author Cighir, Anca
dc.contributor.author Mareș, Mihai
dc.contributor.author Berța, Lavinia
dc.contributor.author Tanase, Corneliu
dc.date.accessioned 2023-06-26T15:10:00Z
dc.date.available 2023-06-26T15:10:00Z
dc.date.issued 2021-10-17
dc.identifier.citation Mare, Anca Delia, Adrian Man, Cristina Nicoleta Ciurea, Felicia Toma, Anca Cighir, Mihai Mareș, Lavinia Berța, and Corneliu Tanase. 2021. "Silver Nanoparticles Biosynthesized with Spruce Bark Extract—A Molecular Aggregate with Antifungal Activity against Candida Species" Antibiotics 10, no. 10: 1261. https://doi.org/10.3390/antibiotics10101261 en_US
dc.identifier.uri https://www.mdpi.com/2079-6382/10/10/1261
dc.identifier.uri https://repository.iuls.ro/xmlui/handle/20.500.12811/3307
dc.description.abstract Due to their high content of biomolecules, combined with silver’s well known antimicrobial potential, silver nanoparticles biosynthesized using spruce bark (AgNP SBEs) demonstrate antibacterial and antioxidant activity, making them a versatile option for developing new antimicrobial agents that might be used for medical treatment or as adjuvants for the classical agents. This study aims to analyze if silver nanoparticles (AgNPs) mediated by spruce bark extract (SBE) and silver salts (AgNP SBE Acetate, AgNP SBE Nitrate) presents antifungal activity against five different Candida spp., synergistic activity with fluconazole, and if they interact with some virulence factors of C. albicans. AgNP SBEs presented MICs (minimum inhibitory concentrations) for all the five tested Candida spp. AgNP SBEs inhibited the growth of C. parapsilosis, C. krusei, and C. guilliermondii, exerted synergistic activity with fluconazole for C. parapsilosis and C. guilliermondii, and inhibited biofilm production for C. albicans, C. auris, and C. guilliermondii. MICs of AgNP SBE Acetate significantly inhibited the production of germ tubes of C. albicans. The expression of C. albicans SAP2 gene was down-regulated by the short-time treatment with MICs of AgNP SBE Acetate, while ALS3 and HSP70 genes were up-regulated by the AgNPs MICs. These results emphasize the potential of using the AgNP SBEs as treatments/adjuvants options, not only against the redundant C. albicans but also for the non-albicans Candida species (which are not as frequently involved in human pathologies, but, sometimes, can be more aggressive) en_US
dc.language.iso en en_US
dc.publisher MDPI en_US
dc.rights CC BY 4.0
dc.rights.uri https://creativecommons.org/licenses/by/4.0/
dc.subject biosynthesis en_US
dc.subject biofilm en_US
dc.subject silver nanoparticles en_US
dc.subject spruce bark en_US
dc.subject synergism en_US
dc.subject SAP2 en_US
dc.subject ALS3 en_US
dc.subject HSP70 en_US
dc.title Silver Nanoparticles Biosynthesized with Spruce Bark Extract—A Molecular Aggregate with Antifungal Activity against Candida Species en_US
dc.type Article en_US
dc.author.affiliation Anca Delia Mare, Adrian Man, Cristina Nicoleta Ciurea, Felicia Toma, Anca Cighir, Department of Microbiology, “George Emil Palade” University of Medicine, Pharmacy, Sciences and Technology of Târgu Mureș, 38 Gheorghe Marinescu Street, Mureș, 540139 Târgu Mureș, Romania
dc.author.affiliation Cristina Nicoleta Ciurea, Anca Cighir, Doctoral School, George Emil Palade University of Medicine, Pharmacy, Science and Technology of Târgu Mureș, 38 Gheorghe Marinescu Street, 540139 Târgu Mureș, Romania
dc.author.affiliation Mihai Mareș, Laboratory of Antimicrobial Chemotherapy, Ion Ionescu de la Brad University of Life Science, 8 Aleea Mihail Sadoveanu, 700489 Iași, Romania
dc.author.affiliation Lavinia Berța, Department of General and Inorganic Chemistry, “George Emil Palade” University of Medicine, Pharmacy, Sciences and Technology of Târgu Mureș, 38 Gheorghe Marinescu Street, Mureș, 540139 Târgu Mureș, Romania
dc.author.affiliation Corneliu Tanase, Department of Pharmaceutical Botany, “George Emil Palade” University of Medicine, Pharmacy, Sciences and Technology of Târgu Mureș, 38 Gheorghe Marinescu Street, Mureș, 540139 Târgu Mureș, Romania
dc.publicationName Antibiotics
dc.volume 10
dc.issue 10
dc.publicationDate 2021
dc.identifier.eissn 2079-6382
dc.identifier.doi https://doi.org/10.3390/antibiotics10101261


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CC BY 4.0 Except where otherwise noted, this item's license is described as CC BY 4.0