Discovery of a novel class of rosmarinic acid derivatives as antibacterial agents: Synthesis, structure-activity relationship and mechanism of action

Yong Wang; Zhiguang Liang; Yihui Cao; Cheung Hin Hung; Ruolan Du; Alan Siu Lun Leung; Pui Kin So; Pak Ho Chan; Wing Leung Wong; Yun Chung Leung; Kwok Yin Wong

doi:10.1016/j.bioorg.2024.107318

Discovery of a novel class of rosmarinic acid derivatives as antibacterial agents: Synthesis, structure-activity relationship and mechanism of action

Yong Wang, Zhiguang Liang, Yihui Cao, Cheung Hin Hung, Ruolan Du, Alan Siu Lun Leung, Pui Kin So, Pak Ho Chan, Wing Leung Wong, Yun Chung Leung, Kwok Yin Wong

Research output: Journal article publication › Journal article › Academic research › peer-review

6 Citations (Scopus)

Abstract

Twenty-seven rosmarinic acid derivatives were synthesized, among which compound RA-N8 exhibited the most potent antibacterial ability. The minimum inhibition concentration of RA-N8 against both S. aureus (ATCC 29213) and MRSA (ATCC BAA41 and ATCC 43300) was found to be 6 μg/mL, and RA-N8 killed E. coli (ATCC 25922) at 3 μg/mL in the presence of polymyxin B nonapeptide (PMBN) which increased the permeability of E. coli. RA-N8 exhibited a weak hemolytic effect at the minimum inhibitory concentration. SYTOX Green assay, SEM, and LIVE/DEAD fluorescence staining assay proved that the mode of action of RA-N8 is targeting bacterial cell membranes. Furthermore, no resistance in wildtype S. aureus developed after incubation with RA-N8 for 20 passages. Cytotoxicity studies further demonstrated that RA-N8 is non-toxic to the human normal cell line (HFF1). RA-N8 also exerted potent inhibitory ability against biofilm formation of S. aureus and even collapsed the shaped biofilm.

Original language	English
Article number	107318
Journal	Bioorganic Chemistry
Volume	146
DOIs	https://doi.org/10.1016/j.bioorg.2024.107318
Publication status	Published - May 2024

Keywords

Antibacterial potency
Antibiofilm
Mechanism of action
MRSA
Natural product
Rosmarinic acid derivatives

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Drug Discovery
Organic Chemistry

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10.1016/j.bioorg.2024.107318

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Wang, Y., Liang, Z., Cao, Y., Hung, C. H., Du, R., Leung, A. S. L., So, P. K., Chan, P. H., Wong, W. L., Leung, Y. C., & Wong, K. Y. (2024). Discovery of a novel class of rosmarinic acid derivatives as antibacterial agents: Synthesis, structure-activity relationship and mechanism of action. Bioorganic Chemistry, 146, Article 107318. https://doi.org/10.1016/j.bioorg.2024.107318

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abstract = "Twenty-seven rosmarinic acid derivatives were synthesized, among which compound RA-N8 exhibited the most potent antibacterial ability. The minimum inhibition concentration of RA-N8 against both S. aureus (ATCC 29213) and MRSA (ATCC BAA41 and ATCC 43300) was found to be 6 μg/mL, and RA-N8 killed E. coli (ATCC 25922) at 3 μg/mL in the presence of polymyxin B nonapeptide (PMBN) which increased the permeability of E. coli. RA-N8 exhibited a weak hemolytic effect at the minimum inhibitory concentration. SYTOX Green assay, SEM, and LIVE/DEAD fluorescence staining assay proved that the mode of action of RA-N8 is targeting bacterial cell membranes. Furthermore, no resistance in wildtype S. aureus developed after incubation with RA-N8 for 20 passages. Cytotoxicity studies further demonstrated that RA-N8 is non-toxic to the human normal cell line (HFF1). RA-N8 also exerted potent inhibitory ability against biofilm formation of S. aureus and even collapsed the shaped biofilm.",

keywords = "Antibacterial potency, Antibiofilm, Mechanism of action, MRSA, Natural product, Rosmarinic acid derivatives",

author = "Yong Wang and Zhiguang Liang and Yihui Cao and Hung, {Cheung Hin} and Ruolan Du and Leung, {Alan Siu Lun} and So, {Pui Kin} and Chan, {Pak Ho} and Wong, {Wing Leung} and Leung, {Yun Chung} and Wong, {Kwok Yin}",

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year = "2024",

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doi = "10.1016/j.bioorg.2024.107318",

language = "English",

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AU - Wang, Yong

AU - Liang, Zhiguang

AU - Cao, Yihui

AU - Hung, Cheung Hin

AU - Du, Ruolan

AU - Leung, Alan Siu Lun

AU - So, Pui Kin

AU - Chan, Pak Ho

AU - Wong, Wing Leung

AU - Leung, Yun Chung

AU - Wong, Kwok Yin

PY - 2024/5

Y1 - 2024/5

N2 - Twenty-seven rosmarinic acid derivatives were synthesized, among which compound RA-N8 exhibited the most potent antibacterial ability. The minimum inhibition concentration of RA-N8 against both S. aureus (ATCC 29213) and MRSA (ATCC BAA41 and ATCC 43300) was found to be 6 μg/mL, and RA-N8 killed E. coli (ATCC 25922) at 3 μg/mL in the presence of polymyxin B nonapeptide (PMBN) which increased the permeability of E. coli. RA-N8 exhibited a weak hemolytic effect at the minimum inhibitory concentration. SYTOX Green assay, SEM, and LIVE/DEAD fluorescence staining assay proved that the mode of action of RA-N8 is targeting bacterial cell membranes. Furthermore, no resistance in wildtype S. aureus developed after incubation with RA-N8 for 20 passages. Cytotoxicity studies further demonstrated that RA-N8 is non-toxic to the human normal cell line (HFF1). RA-N8 also exerted potent inhibitory ability against biofilm formation of S. aureus and even collapsed the shaped biofilm.

AB - Twenty-seven rosmarinic acid derivatives were synthesized, among which compound RA-N8 exhibited the most potent antibacterial ability. The minimum inhibition concentration of RA-N8 against both S. aureus (ATCC 29213) and MRSA (ATCC BAA41 and ATCC 43300) was found to be 6 μg/mL, and RA-N8 killed E. coli (ATCC 25922) at 3 μg/mL in the presence of polymyxin B nonapeptide (PMBN) which increased the permeability of E. coli. RA-N8 exhibited a weak hemolytic effect at the minimum inhibitory concentration. SYTOX Green assay, SEM, and LIVE/DEAD fluorescence staining assay proved that the mode of action of RA-N8 is targeting bacterial cell membranes. Furthermore, no resistance in wildtype S. aureus developed after incubation with RA-N8 for 20 passages. Cytotoxicity studies further demonstrated that RA-N8 is non-toxic to the human normal cell line (HFF1). RA-N8 also exerted potent inhibitory ability against biofilm formation of S. aureus and even collapsed the shaped biofilm.

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KW - Antibiofilm

KW - Mechanism of action

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KW - Natural product

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Discovery of a novel class of rosmarinic acid derivatives as antibacterial agents: Synthesis, structure-activity relationship and mechanism of action

Abstract

Keywords

ASJC Scopus subject areas

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