Microbial Biofilm Inhibition Using Magnetic Cross-Linked Polyphenol Oxidase Aggregates.
Rubia NooriNagmi BanoShaban AhmadKainat MirzaJahirul Ahmed MazumderMohammad PerwezKhalid RazaNikhat ManzoorMeryam SardarPublished in: ACS applied bio materials (2024)
Microbial biofilm accumulation poses a serious threat to the environment, presents significant challenges to different industries, and exhibits a large impact on public health. Since there has not been a conclusive answer found despite various efforts, the potential green and economical methods are being focused on, particularly the innovative approaches that employ biochemical agents. In the present study, we propose a bio-nanotechnological method using magnetic cross-linked polyphenol oxidase aggregates (PPO m-CLEA) for inhibition of microbial biofilm including multidrug resistant bacteria. Free PPO solution showed only 55-60% biofilm inhibition, whereas m-CLEA showed 70-75% inhibition, as confirmed through microscopic techniques. The carbohydrate and protein contents in biofilm extracellular polymeric substances (EPSs) were reduced significantly. The m-CLEA demonstrated reusability up to 5 cycles with consistent efficiency in biofilm inhibition. Computational work was also done where molecular docking of PPO with microbial proteins associated with biofilm formation was conducted, resulting in favorable binding scores and inter-residual interactions. Overall, both in vitro and in silico results suggest that PPO interferes with microbial cell attachment and EPS formation, thereby preventing biofilm colonization.
Keyphrases
- biofilm formation
- pseudomonas aeruginosa
- candida albicans
- staphylococcus aureus
- molecular docking
- microbial community
- public health
- cystic fibrosis
- escherichia coli
- multidrug resistant
- acinetobacter baumannii
- stem cells
- single cell
- drug resistant
- molecular dynamics simulations
- molecularly imprinted
- binding protein
- bone marrow
- mass spectrometry
- quality improvement
- drug release
- solid state