Biocide effect against SARS-CoV-2 and ESKAPE pathogens of a noncytotoxic silver-copper nanofilm.
Juan Manuel Bello-LopezPhaedra S Silva-BermúdezGina Prado-ProneA MartínezGabriela Ibañez-CervantesMónica Alethia Cureño-DíazL Rocha-ZavaletaJ Manzo-MerinoArgelia Almaguer-FloresC Ramos-VilchisSandra E Rodil-PosadaPublished in: Biomedical materials (Bristol, England) (2021)
Nanometric materials with biocidal properties effective against severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) and pathogenic bacteria could be used to modify surfaces, reducing the risk of touching transmission. In this work, we showed that a nanometric layer of bimetallic AgCu can be effectively deposited on polypropylene (PP) fibers. The virucidal properties of the AgCu nanofilm were evaluated by comparing the viral loads remaining on uncoated and coated PP after contact times between 2 and 24 h. Quantification of virion numbers for different initial concentrations indicated a reduction of more than 95% after 2 h of contact. The bactericidal action of the AgCu nanofilm was also confirmed by inoculating uncoated and coated PP with a pool of pathogenic bacteria associated with pneumonia (ESKAPE). Meanwhile, no cytotoxicity was observed for human fibroblasts and keratinocyte cells, indicating that the nanofilm could be in contact with human skin without threat. The deposition of the AgCu nanofilm on the nonwoven component of reusable cloth masks might help to prevent virus and bacterial infection while reducing the pollution burden related to the disposable masks. The possible mechanism of biocide contact action was studied by quantum chemistry calculations that show that the addition of Ag and/or Cu makes the polymeric fiber a better electron acceptor. This can promote the oxidation of the phospholipids present at both the virus and bacterial membranes. The rupture at the membrane exposes and damages the genetic material of the virus. More studies are needed to determine the mechanism of action, but the results reported here indicate that Cu and Ag ions are good allies, which can help protect us from the virus that has caused this disturbing pandemic.
Keyphrases
- sars cov
- respiratory syndrome coronavirus
- quantum dots
- coronavirus disease
- molecular dynamics
- endothelial cells
- heavy metals
- induced apoptosis
- aqueous solution
- risk assessment
- gene expression
- genome wide
- solar cells
- particulate matter
- cell cycle arrest
- oxidative stress
- climate change
- nitric oxide
- density functional theory
- drinking water
- gram negative
- fatty acid
- pi k akt
- water soluble