Comparative Metabolite Profiling of Four Polyphenol Rich Morus Leaves extracts in Relation to their Antibiofilm Activity against Enterococcus faecalis
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Date
2022-07-22
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
Hindawi
Series Info
Research Square;
Scientific Journal Rankings
Abstract
Enterococci are a common cause of urinary tract infections. The severity of enterococcal infections is associated with their ability to form biofilm. Morus
leaves are known as a natural antibacterial, however, their antibiofilm activity against enterococcus remains unveiled. This study aimed to evaluate the
ability of four polyphenol-rich Morus leaves extracts (Morus nigra, M. rubra, M. macroura, and M. alba) to inhibit biofilm formed by enterococcal clinical
isolates in relation to their metabolic profiling. Results revealed that 48% of the isolates formed strong biofilm, 28% formed moderate biofilm, 20% formed
weak biofilm and only 4% did not form a biofilm, the strong biofilm-forming isolates were E. faecalis and hence were chosen for this study. The antibiofilm
activity of the four polyphenol-rich Morus leaves extracts revealed that the M. nigra extract exhibited the highest percentage of biofilm inhibition followed
by M. rubra then M. macroura and the least inhibition was detected in M. alba, results are in accordance with the phenolic and flavonoid content of each
extract. UPLC-ESI-MS/MS identified 61 polyphenolic compounds in the four extracts. Further, multivariate analysis confirmed clear segregation of M. nigra
from the other species suggesting disparity in its metabolome, with accumulation of flavonoids, anthocyanidins, phenolic acids and coumarin derivatives.
Quercetin and kaempferol glycosides were found to be positively and significantly correlated. In conclusion, M. nigra ethanolic extracts showed the highest
phenolic content and antibiofilm activity and they could be developed as a complementary treatment for the development of antimicrobial agents.
Description
Keywords
Morus leaves, metabolite profiling, polyphenols, antibiofilm, Enterococcus