4.3 Article

Investigation of morphological and biochemical changes of zinc oxide nanoparticles induced toxicity against multi drug resistance bacteria

Journal

Publisher

ELSEVIER GMBH
DOI: 10.1016/j.jtemb.2022.127069

Keywords

Zinc oxide nanoparticles; Anti-biofilm; ROS generation; Flow cytometry; Confocal microscopy; Intracellular leakage

Funding

  1. University Grants Commission (UGC)

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ZnO NPs synthesized using cyanobacteria Gleocapsa gelatinosa cell extract showed high antibiofilm activity against B. cereus and E. coli. Flow cytometry and confocal microscopy analysis revealed a strong interaction of ZnO NPs with intracellular components leading to biofilm destruction.
Background: Biofilms are microbial colonies that remain enclosed in an organic polymeric matrix substance on biotic and abiotic surfaces, allowing them to colonize medical equipments and involved in most device associated life intimidating infections. Due to their antimicrobial resistance there is an urgent need to discover novel biofilm preventive and therapeutic agents.Methods: ZnO NPs were synthesized using cyanobacteria Gleocapsa gelatinosa cell extract through green and cost-effective approach. Physiochemical characterization was done to determine their morphologies and size distri-bution. Antibiofilm and eradication activity of ZnO NPs was determined. Cell viability and internalization ability of ZnO NPs into biofilm was analyzed by flow cytometry. Confocal microscopy was done to visualize the dis-rupted biofilm morphology treated with ZnO NPs.Results: It was observed that ZnONPs were spherical in shape with 31-35 nm size and were moderately dispersed. ZnO NPs exhibited high antibiofilm activity against B. cereus and E. coli with minimum biofilm inhibitory con-centration (MBIC) of ZnO NPs at 46.8 mu g ml -1 and 93.7 mu g ml -1. Flow cytometry analysis confirmed the reduced bacterial cell viability due to increased permeability, altered bacterial growth and enhanced production of intracellular ROS. Disruption of membrane integrity exhibited with reduced exopolysaccharides secretion and leakage of nucleic acids through UV-Vis spectroscopy. Results of confocal microscopy highlighted strong interaction of ZnO NPs with intracellular components leading to biofim destruction.Conclusions: This study emphasizes the potential mechanisms underlying the selective bactericidal properties of ZnO NPs and highlighted the strong interaction of ZnO NPs with intracellular components leading to biofim destruction. Therefore, ZnO NPs could be considered as a promising antibiofilm agent and thus could expand the possibility to use as therapeutic agent.

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