Determination of the Cytotoxicity and Antibiofilm Potential Effect of Equisetum arvense Silver Nanoparticles

This study aimed to synthesize and characterize silver nanoparticles (AgNPs) by green synthesis from Equisetum arvense (Ea) extracts and to investigate their cytotoxicity, antibiofilm activity, and α-glucosidase enzyme inhibition. Diverse characterization techniques were applied to verify the produc...

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Veröffentlicht in:	Applied biochemistry and biotechnology 2024-02, Vol.196 (2), p.909-922
Hauptverfasser:	Akar, Zeynep, Akay, Seref, Ejder, Nebahat, Özad Düzgün, Azer
Format:	Artikel
Sprache:	eng
Schlagworte:	alpha-Glucosidases Anti-Bacterial Agents - pharmacology Anticancer properties antimicrobial properties antineoplastic activity Antitumor activity Biochemistry biofilm Biofilms Biotechnology Cancer cancer therapy Cell growth Cell proliferation Chemistry Chemistry and Materials Science Cytotoxicity E coli enzyme inhibition Enzymes Equisetum Equisetum arvense Escherichia coli Glucosidase growth retardation Metal Nanoparticles Microbial Sensitivity Tests Microorganisms Nanoparticles nanosilver Original Article Plant extracts Plant Extracts - pharmacology Silver Silver - pharmacology Spectroscopy, Fourier Transform Infrared Synthesis Toxicity viability α-Glucosidase
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description	This study aimed to synthesize and characterize silver nanoparticles (AgNPs) by green synthesis from Equisetum arvense (Ea) extracts and to investigate their cytotoxicity, antibiofilm activity, and α-glucosidase enzyme inhibition. Diverse characterization techniques were applied to verify the production of nanoparticles. SEM examination confirmed that the size of nanoparticles is in the range of 40–60 nm. Also, interactions between silver and natural compounds of plant extract were confirmed through FT-IR and EDX analyses. It was determined that Equisetum arvense silver nanoparticles had antibiofilm activity against three different clinical strains with high biofilm-forming ability. AgNPs reduced the biofilm-forming capacity of clinical A. baumannii isolate with strong biofilm-forming capacity by approximately twofold, while the capacity of clinical K.pneumonaie and E.coli isolates decreased by 1.5 and 1.2 fold, respectively. The α-glucosidase enzyme inhibition potential of the AgNPs, which is determined as 93.50%, was higher than the plant extract with, and the α- 30.37%. MTT was performed to assess whether incubation of nanoparticles with A549 and ARPE-19 cell lines affected their viability, and a dramatic reduction in cell growth inhibition of both A549 and ARPE-19 cells was observed. It has been shown that A549 cells treated with 200 and 150 µg/mL nanoparticles had less cell proliferation compared to control cells at 24-h and 48-h incubation time. According to these results, Ea-derived AgNPs appear to have potential anticancer activity against A549 cancer cells. Investigating the effects of green synthesis nanoparticles on microbial biofilm and various tumors may be important for developing new therapies. The outcomes of this study have showed that Ea-AgNPsmay have a high potential both in the treatment of pathogenic strains that form biofilms, as well as in anticancer therapy use.
doi_str_mv	10.1007/s12010-023-04587-7
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MTT was performed to assess whether incubation of nanoparticles with A549 and ARPE-19 cell lines affected their viability, and a dramatic reduction in cell growth inhibition of both A549 and ARPE-19 cells was observed. It has been shown that A549 cells treated with 200 and 150 µg/mL nanoparticles had less cell proliferation compared to control cells at 24-h and 48-h incubation time. According to these results, Ea-derived AgNPs appear to have potential anticancer activity against A549 cancer cells. Investigating the effects of green synthesis nanoparticles on microbial biofilm and various tumors may be important for developing new therapies. 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MTT was performed to assess whether incubation of nanoparticles with A549 and ARPE-19 cell lines affected their viability, and a dramatic reduction in cell growth inhibition of both A549 and ARPE-19 cells was observed. It has been shown that A549 cells treated with 200 and 150 µg/mL nanoparticles had less cell proliferation compared to control cells at 24-h and 48-h incubation time. According to these results, Ea-derived AgNPs appear to have potential anticancer activity against A549 cancer cells. Investigating the effects of green synthesis nanoparticles on microbial biofilm and various tumors may be important for developing new therapies. 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MTT was performed to assess whether incubation of nanoparticles with A549 and ARPE-19 cell lines affected their viability, and a dramatic reduction in cell growth inhibition of both A549 and ARPE-19 cells was observed. It has been shown that A549 cells treated with 200 and 150 µg/mL nanoparticles had less cell proliferation compared to control cells at 24-h and 48-h incubation time. According to these results, Ea-derived AgNPs appear to have potential anticancer activity against A549 cancer cells. Investigating the effects of green synthesis nanoparticles on microbial biofilm and various tumors may be important for developing new therapies. 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subjects	alpha-Glucosidases Anti-Bacterial Agents - pharmacology Anticancer properties antimicrobial properties antineoplastic activity Antitumor activity Biochemistry biofilm Biofilms Biotechnology Cancer cancer therapy Cell growth Cell proliferation Chemistry Chemistry and Materials Science Cytotoxicity E coli enzyme inhibition Enzymes Equisetum Equisetum arvense Escherichia coli Glucosidase growth retardation Metal Nanoparticles Microbial Sensitivity Tests Microorganisms Nanoparticles nanosilver Original Article Plant extracts Plant Extracts - pharmacology Silver Silver - pharmacology Spectroscopy, Fourier Transform Infrared Synthesis Toxicity viability α-Glucosidase
title	Determination of the Cytotoxicity and Antibiofilm Potential Effect of Equisetum arvense Silver Nanoparticles
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