Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum

Biofilm-producing Staphylococcus aureus (S. aureus) is less sensitive to conventional antibiotics than free-living planktonic cells. Here, we evaluated the antibiofilm activity of Illicium verum (I. verum) and one of its constituent compounds 3-hydroxybenzoic acid (3-HBA) against multi-drug-resistan...

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Main Authors: Ganesh, Pitchaipillai Sankar, Veena, Krishnamurthy, Senthil, Renganathan, Iswamy, Koneti, Ponmalar, Esaki Muthu, Mariappan, Vanitha, Girija, A. S. Smiline, Vadivelu, Jamuna, Nagarajan, Samuthira, Challabathula, Dinakar, Shankar, Esaki Muthu
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Published: American Chemical Society 2022
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spelling my.um.eprints.419952023-10-19T03:28:44Z http://eprints.um.edu.my/41995/ Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum Ganesh, Pitchaipillai Sankar Veena, Krishnamurthy Senthil, Renganathan Iswamy, Koneti Ponmalar, Esaki Muthu Mariappan, Vanitha Girija, A. S. Smiline Vadivelu, Jamuna Nagarajan, Samuthira Challabathula, Dinakar Shankar, Esaki Muthu R Medicine (General) Biofilm-producing Staphylococcus aureus (S. aureus) is less sensitive to conventional antibiotics than free-living planktonic cells. Here, we evaluated the antibiofilm activity of Illicium verum (I. verum) and one of its constituent compounds 3-hydroxybenzoic acid (3-HBA) against multi-drug-resistant S. aureus. We performed gas chromatography-mass spectroscopy (GC-MS) to identify the major constituents in the methanolic extract of I. verum. Ligand-receptor interactions were studied by molecular docking, and in vitro investigations were performed using crystal violet assay, spreading assay, hemolysis, proteolytic activity, and growth curve analysis. The methanolic extract of I. verum inhibited S. aureus at 4.8 mg/mL, and GC-MS analysis revealed anethole, m-methoxybenzaldehyde, and 3-HBA as the major constituents. Molecular docking attributed the antibiofilm activity to an active ligand present in 3-KBA, which strongly interacted with the active site residues of AgrA and SarA of S. aureus. At a subinhibitory concentration of 2.4 mg/mL, the extract showed biofilm inhibition. Similarly, 3-HBA inhibited biofilm activity at 25 mu g/mL (90.34%), 12.5 mu g/mL (77.21%), and 6.25 mu g/mL (62.69%) concentrations. Marked attrition in bacterial spreading was observed at 2.4 mg/mL (crude extract) and 25 mu g/mL (3-HBA) concentrations. The methanol extract of I. verum and 3-HBA markedly inhibited beta-hemolytic and proteolytic activities of S. aureus. At the lowest concentration, the I. verum extract (2.4 mg/mL) and 3-HBA (25 mu g/mL) did not inhibit bacterial growth. Optical microscopy and SEM analysis confirmed that I. verum and 3-HBA significantly reduced biofilm dispersion without disturbing bacterial growth. Together, we found that the antibiofilm activity of I. verum and 3-KBA strongly targeted the Agr and Sar systems of S. aureus. American Chemical Society 2022-05 Article PeerReviewed Ganesh, Pitchaipillai Sankar and Veena, Krishnamurthy and Senthil, Renganathan and Iswamy, Koneti and Ponmalar, Esaki Muthu and Mariappan, Vanitha and Girija, A. S. Smiline and Vadivelu, Jamuna and Nagarajan, Samuthira and Challabathula, Dinakar and Shankar, Esaki Muthu (2022) Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum. ACS Omega, 7 (17). pp. 14653-14665. ISSN 2470-1343, DOI https://doi.org/10.1021/acsomega.1c07178 <https://doi.org/10.1021/acsomega.1c07178>. 10.1021/acsomega.1c07178
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic R Medicine (General)
spellingShingle R Medicine (General)
Ganesh, Pitchaipillai Sankar
Veena, Krishnamurthy
Senthil, Renganathan
Iswamy, Koneti
Ponmalar, Esaki Muthu
Mariappan, Vanitha
Girija, A. S. Smiline
Vadivelu, Jamuna
Nagarajan, Samuthira
Challabathula, Dinakar
Shankar, Esaki Muthu
Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum
description Biofilm-producing Staphylococcus aureus (S. aureus) is less sensitive to conventional antibiotics than free-living planktonic cells. Here, we evaluated the antibiofilm activity of Illicium verum (I. verum) and one of its constituent compounds 3-hydroxybenzoic acid (3-HBA) against multi-drug-resistant S. aureus. We performed gas chromatography-mass spectroscopy (GC-MS) to identify the major constituents in the methanolic extract of I. verum. Ligand-receptor interactions were studied by molecular docking, and in vitro investigations were performed using crystal violet assay, spreading assay, hemolysis, proteolytic activity, and growth curve analysis. The methanolic extract of I. verum inhibited S. aureus at 4.8 mg/mL, and GC-MS analysis revealed anethole, m-methoxybenzaldehyde, and 3-HBA as the major constituents. Molecular docking attributed the antibiofilm activity to an active ligand present in 3-KBA, which strongly interacted with the active site residues of AgrA and SarA of S. aureus. At a subinhibitory concentration of 2.4 mg/mL, the extract showed biofilm inhibition. Similarly, 3-HBA inhibited biofilm activity at 25 mu g/mL (90.34%), 12.5 mu g/mL (77.21%), and 6.25 mu g/mL (62.69%) concentrations. Marked attrition in bacterial spreading was observed at 2.4 mg/mL (crude extract) and 25 mu g/mL (3-HBA) concentrations. The methanol extract of I. verum and 3-HBA markedly inhibited beta-hemolytic and proteolytic activities of S. aureus. At the lowest concentration, the I. verum extract (2.4 mg/mL) and 3-HBA (25 mu g/mL) did not inhibit bacterial growth. Optical microscopy and SEM analysis confirmed that I. verum and 3-HBA significantly reduced biofilm dispersion without disturbing bacterial growth. Together, we found that the antibiofilm activity of I. verum and 3-KBA strongly targeted the Agr and Sar systems of S. aureus.
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author Ganesh, Pitchaipillai Sankar
Veena, Krishnamurthy
Senthil, Renganathan
Iswamy, Koneti
Ponmalar, Esaki Muthu
Mariappan, Vanitha
Girija, A. S. Smiline
Vadivelu, Jamuna
Nagarajan, Samuthira
Challabathula, Dinakar
Shankar, Esaki Muthu
author_facet Ganesh, Pitchaipillai Sankar
Veena, Krishnamurthy
Senthil, Renganathan
Iswamy, Koneti
Ponmalar, Esaki Muthu
Mariappan, Vanitha
Girija, A. S. Smiline
Vadivelu, Jamuna
Nagarajan, Samuthira
Challabathula, Dinakar
Shankar, Esaki Muthu
author_sort Ganesh, Pitchaipillai Sankar
title Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum
title_short Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum
title_full Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum
title_fullStr Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum
title_full_unstemmed Biofilm-associated Agr and Sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum
title_sort biofilm-associated agr and sar quorum sensing systems of staphylococcus aureus are inhibited by 3-hydroxybenzoic acid derived from illicium verum
publisher American Chemical Society
publishDate 2022
url http://eprints.um.edu.my/41995/
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