Antibiofilm and antibacterial activities of lupinifolin in combination with protein synthesis inhibitors against methicillin-resistant Staphylococcus aureus

Parichart Kwaengmuang; Koravich Chaiyawong; Todsapon Warong; Sakulrat Rattanakiat; Pawitra Pulbutr

doi:10.34172/jhp.2023.46056

Journal of HerbMed Pharmacology (Sep 2023)

Antibiofilm and antibacterial activities of lupinifolin in combination with protein synthesis inhibitors against methicillin-resistant Staphylococcus aureus

Parichart Kwaengmuang,
Koravich Chaiyawong,
Todsapon Warong,
Sakulrat Rattanakiat,
Pawitra Pulbutr

Affiliations

Parichart Kwaengmuang: Pharmaceutical Chemistry and Natural Product Research Unit, Faculty of Pharmacy, Mahasarakham University, Thailand, 44150
Koravich Chaiyawong: Pharmaceutical Chemistry and Natural Product Research Unit, Faculty of Pharmacy, Mahasarakham University, Thailand, 44150
Todsapon Warong: Pharmaceutical Chemistry and Natural Product Research Unit, Faculty of Pharmacy, Mahasarakham University, Thailand, 44150
Sakulrat Rattanakiat: Pharmaceutical Chemistry and Natural Product Research Unit, Faculty of Pharmacy, Mahasarakham University, Thailand, 44150
Pawitra Pulbutr: Pharmaceutical Chemistry and Natural Product Research Unit, Faculty of Pharmacy, Mahasarakham University, Thailand, 44150

DOI: https://doi.org/10.34172/jhp.2023.46056
Journal volume & issue: Vol. 12, no. 4
pp. 549 – 559

Abstract

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Introduction: Methicillin-resistant Staphylococcus aureus (MRSA)-derived biofilm formation is a crucial virulence factor, which essentially contributes to therapeutic challenges. This study aims to evaluate the antibiofilm and antibacterial formation activities of lupinifolin, a prenylated flavanone derived from Derris reticulata Craib. stem, in combination with protein synthesis inhibitors. Methods: The crystal violet biofilm formation assay was performed to determine the biofilm formation activity. The synergistic antibacterial activities were evaluated using the checkerboard and time-kill assays. Results: Lupinifolin and tetracycline significantly reduced MRSA biofilm formation with IC50 values of 15.32 ± 5.98 and 13.42 ± 5.90 µg/mL, respectively. On the contrary, the individual treatment of streptomycin and clindamycin tended to enhance biofilm formation. Lupinifolin at the sub-MIC of 8 µg/mL in combination with certain sub-MICs of tetracycline (8 and 16 µg/mL), streptomycin (16, 32, and 64 µg/mL), or clindamycin (4, 8, and 16 µg/mL) caused significant inhibitions against MRSA biofilm formation (P<0.05). The combination of lupinifolin and streptomycin exhibited a synergy (FIC index <0.625), confirmed in the time-kill assay. Conversely, the combination of lupinifolin and tetracycline or clindamycin resulted in no interaction (FIC indices of 1.0078 and <1.0156, respectively). Conclusion: The antibacterial synergy of lupinifolin and streptomycin possibly contributed to their antibiofilm-forming activity. However, the combinations of lupinifolin and tetracycline or clindamycin conceivably executed their antibiofilm activity directly against the MRSA biofilm formation process. These findings indicate a potential role for lupinifolin as an antibiofilm enhancer to diminish MRSA biofilm formation.

Published in Journal of HerbMed Pharmacology

ISSN: 2345-5004 (Online)
Publisher: Shahrekord University of Medical Sciences
Country of publisher: Iran, Islamic Republic of
LCC subjects: Medicine: Medicine (General); Medicine: Therapeutics. Pharmacology
Website: http://www.herbmedpharmacol.com/

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