Bacterial Cellulose Membranes as Carriers for Nisin: Incorporation, Antimicrobial Activity, Cytotoxicity and Morphology

Based on the previous study, in which nisin and bacterial cellulose were utilized, this new experiment loads nisin into bacterial cellulose (N-BC) and evaluates the morphological characteristics, cytotoxicity, antimicrobial activity and stability of the developed system. The load efficiency of nisin in BC was evaluated by an agar diffusion assay, utilizing Lactobacillus sakei, and total proteins. After having found the ideal time and concentration for the loading process, the system stability was evaluated for 100 days at 4, 25 and 37 degrees C against Staphylococcus aureus and L. sakei. Thus, in this study, there is a system that proves to be efficient, once BC has enhanced the antimicrobial activity of nisin, acting as a selective barrier for other compounds present in the standard solution and protecting the peptide. After 4 h, with 45% of proteins, this activity was almost 2 log(10) higher than that of the initial solution. Once the nisin solution was not pure, it is possible to suggest that the BC may have acted as a filter. This barrier enhanced the nisin activity and, as a consequence of the nisin loading, a stable N-BC system formed. The N-BC could create meaningful material for pharmaceutical and food applications.

Automated summary

This study investigates the loading of nisin into bacterial cellulose (N-BC) and evaluates its morphological characteristics, cytotoxicity, antimicrobial activity, and stability. The results show that bacterial cellulose enhances the antimicrobial activity of nisin and acts as a barrier for other compounds, protecting the stability of nisin. Therefore, the N-BC system could be useful for pharmaceutical and food applications.