AI Article Synopsis
- Plasma-initiated free radical polymerization was utilized to create carbon nanoparticles (CNPs) that were modified to carry a potent anti-infection substance called metal-free Russian propolis ethanol extract (MFRPEE), resulting in nano-based drug delivery systems (NBDDSs).
- The NBDDSs demonstrated improved stability and stronger anti-biofilm effects compared to the free form of MFRPEE due to the modified surface chemistry of the CNPs, which allowed them to specifically target negatively charged elements of biofilms.
- Additionally, the acidic environment produced by biofilms facilitated the release of MFRPEE from the CNPs, activating its anti-infectious properties, ultimately leading to bacterial cell death by dismantling
Article Abstract
Plasma-initiated free radical polymerization was used to engineer carbon nanoparticles (CNPs) with tailored chemical and physical properties. Following surface modification, CNPs were loaded with a highly effective anti-infection agent called metal-free Russian propolis ethanol extract (MFRPEE), thus, creating nano-based drug delivery systems (NBDDSs). The loading of MFRPEE onto grafted CNPs occurred naturally through both electrostatic interactions and hydrogen bonding. When constructed under optimal experimental conditions, the NBDDSs were stable under physiologic conditions, and demonstrated enhanced anti-biofilm activity when compared with free MFRPEE. Mechanistic studies revealed that the enhanced anti-infectious activity of the NBDDSs was attributed to the modified surface chemistry of grafted CNPs. More specifically, the overall positive surface charge on grafted CNPs, which stems from quaternary ammonium polymer brushes covalently bound to the CNPs, provides NBDDSs with the ability to specifically target negatively charged components of biofilms. When studying the release profile of MFRPEE from the modified CNPs, acidic components produced by a biofilm triggered the release of MFRPEE bound to the NBDDS. Once in its free form, the anti-infectious properties of MFRPEE became activated and damaged the extracellular polymeric matrix (EPM) of the biofilm. Once the architecture of the biofilm became compromised, the EPM was no longer capable of protecting the bacteria encapsulated within the biofilm from the anti-infectious agent. Consequently, exposure of bacteria to MFRPEE led to bacterial cell death and biofilm inactivation. The results obtained from this study begin to examine the potential application of NBDDSs for the treatment of healthcare-associated infections (HCAIs).
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9617291 | PMC |
| http://dx.doi.org/10.1080/08927014.2021.2008376 | DOI Listing |
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