AI Article Synopsis
- The use of nanomaterials is raising concerns for human and environmental health, with their potential role in promoting antimicrobial resistance (AMR), a crisis affecting around 700,000 people annually.
- This study investigates how commonly used nanoparticles (Ag, CuO, ZnO) influence AMR spread through horizontal gene transfer, doubling the transformation rate of antibiotic resistance genes in a specific bacteria by 11 times.
- The research reveals that nanoparticles can enhance AMR via mechanisms like increased reactive oxygen species and cell damage, indicating that the risks of nanomaterials should be carefully evaluated in relation to public health.
Article Abstract
The increasing release of nanomaterials has attracted significant concerns for human and environmental health. Similarly, the dissemination of antimicrobial resistance (AMR) is a global health crisis affecting approximately 700,000 people a year. However, a knowledge gap persists between the spread of AMR and nanomaterials. This study aims to fill this gap by investigating whether and how nanomaterials could directly facilitate the dissemination of AMR through horizontal gene transfer. Our results show that commonly-used nanoparticles (NPs) (Ag, CuO and ZnO NPs) and their ion forms (Ag, Cu and Zn) at realistic concentrations within aquatic environments can significantly promote the transformation of extracellular antibiotic resistance genes in Acinetobacter baylyi ADP1 by a factor of 11.0-folds, which is comparable to the effects of antibiotics. The enhanced transformation by Ag NPs/Ag and CuO NPs/Cu was primarily associated with the overproduction of reactive oxygen species and cell membrane damage. ZnO NPs/Zn might increase the natural transformation rate by stimulating the stress response and ATP synthesis. All tested NPs/ions resulted in upregulating the competence and SOS response-associated genes. These findings highlight a new concern that nanomaterials can speed up the spread of AMR, which should not be ignored when assessing the holistic risk of nanomaterials.
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| http://dx.doi.org/10.1016/j.jhazmat.2021.126728 | DOI Listing |
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