Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>

Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>

As the burden of antibacterial resistance worsens and treatment options become narrower, rhodomyrtone—a novel natural antibiotic agent with a new antibacterial mechanism—could replace existing antibiotics for the treatment of infections caused by multi-drug resistant Gram-positive bacteria. In this...

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Main Authors: Ozioma F. Nwabor, Sukanlaya Leejae, Supayang P. Voravuthikunchai
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Antibiotics
Subjects:
rhodomyrtone
antimicrobial resistance
macromolecule biosynthesis
methicillin-resistant <i>Staphylococcus</i> <i>aureus</i>
Online Access:https://www.mdpi.com/2079-6382/10/5/543
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spelling doaj-3cce54cb776b42eda1e0dec267decdda2021-05-31T23:23:15ZengMDPI AGAntibiotics2079-63822021-05-011054354310.3390/antibiotics10050543Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>Ozioma F. Nwabor0Sukanlaya Leejae1Supayang P. Voravuthikunchai2Division of Infectious Diseases, Department of Internal Medicine, Faculty of Medicine, Prince of Songkla University, Hat Yai, Songkhla 90112, ThailandDivision of Biological Science, Faculty of Science and Natural Product Research Center of Excellence, Prince of Songkla University, Hat Yai, Songkhla 90112, ThailandDivision of Biological Science, Faculty of Science and Natural Product Research Center of Excellence, Prince of Songkla University, Hat Yai, Songkhla 90112, ThailandAs the burden of antibacterial resistance worsens and treatment options become narrower, rhodomyrtone—a novel natural antibiotic agent with a new antibacterial mechanism—could replace existing antibiotics for the treatment of infections caused by multi-drug resistant Gram-positive bacteria. In this study, rhodomyrtone was detected within the cell by means of an easy an inexpensive method. The antibacterial effects of rhodomyrtone were investigated on epidemic methicillin-resistant <i>Staphylococcus</i> <i>aureus</i>. Thin-layer chromatography demonstrated the entrapment and accumulation of rhodomyrtone within the bacterial cell wall and cell membrane. The incorporation of radiolabelled precursors revealed that rhodomyrtone inhibited the synthesis of macromolecules including DNA, RNA, proteins, the cell wall, and lipids. Following the treatment with rhodomyrtone at MIC (0.5–1 µg/mL), the synthesis of all macromolecules was significantly inhibited (<i>p</i> ≤ 0.05) after 4 h. Inhibition of macromolecule synthesis was demonstrated after 30 min at a higher concentration of rhodomyrtone (4× MIC), comparable to standard inhibitor compounds. In contrast, rhodomyrtone did not affect lipase activity in staphylococci—both epidemic methicillin-resistant <i>S.</i> <i>aureus</i> and <i>S</i>. <i>aureus</i> ATCC 29213. Interfering with the synthesis of multiple macromolecules is thought to be one of the antibacterial mechanisms of rhodomyrtone.https://www.mdpi.com/2079-6382/10/5/543rhodomyrtoneantimicrobial resistancemacromolecule biosynthesismethicillin-resistant <i>Staphylococcus</i> <i>aureus</i>
collection DOAJ
language English
format Article
sources DOAJ
author Ozioma F. Nwabor
Sukanlaya Leejae
Supayang P. Voravuthikunchai
spellingShingle Ozioma F. Nwabor
Sukanlaya Leejae
Supayang P. Voravuthikunchai
Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>
Antibiotics
rhodomyrtone
antimicrobial resistance
macromolecule biosynthesis
methicillin-resistant <i>Staphylococcus</i> <i>aureus</i>
author_facet Ozioma F. Nwabor
Sukanlaya Leejae
Supayang P. Voravuthikunchai
author_sort Ozioma F. Nwabor
title Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>
title_short Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>
title_full Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>
title_fullStr Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>
title_full_unstemmed Rhodomyrtone Accumulates in Bacterial Cell Wall and Cell Membrane and Inhibits the Synthesis of Multiple Cellular Macromolecules in Epidemic Methicillin-Resistant <i>Staphylococcus</i> <i>aureus</i>
title_sort rhodomyrtone accumulates in bacterial cell wall and cell membrane and inhibits the synthesis of multiple cellular macromolecules in epidemic methicillin-resistant <i>staphylococcus</i> <i>aureus</i>
publisher MDPI AG
series Antibiotics
issn 2079-6382
publishDate 2021-05-01
description As the burden of antibacterial resistance worsens and treatment options become narrower, rhodomyrtone—a novel natural antibiotic agent with a new antibacterial mechanism—could replace existing antibiotics for the treatment of infections caused by multi-drug resistant Gram-positive bacteria. In this study, rhodomyrtone was detected within the cell by means of an easy an inexpensive method. The antibacterial effects of rhodomyrtone were investigated on epidemic methicillin-resistant <i>Staphylococcus</i> <i>aureus</i>. Thin-layer chromatography demonstrated the entrapment and accumulation of rhodomyrtone within the bacterial cell wall and cell membrane. The incorporation of radiolabelled precursors revealed that rhodomyrtone inhibited the synthesis of macromolecules including DNA, RNA, proteins, the cell wall, and lipids. Following the treatment with rhodomyrtone at MIC (0.5–1 µg/mL), the synthesis of all macromolecules was significantly inhibited (<i>p</i> ≤ 0.05) after 4 h. Inhibition of macromolecule synthesis was demonstrated after 30 min at a higher concentration of rhodomyrtone (4× MIC), comparable to standard inhibitor compounds. In contrast, rhodomyrtone did not affect lipase activity in staphylococci—both epidemic methicillin-resistant <i>S.</i> <i>aureus</i> and <i>S</i>. <i>aureus</i> ATCC 29213. Interfering with the synthesis of multiple macromolecules is thought to be one of the antibacterial mechanisms of rhodomyrtone.
topic rhodomyrtone
antimicrobial resistance
macromolecule biosynthesis
methicillin-resistant <i>Staphylococcus</i> <i>aureus</i>
url https://www.mdpi.com/2079-6382/10/5/543
work_keys_str_mv AT oziomafnwabor rhodomyrtoneaccumulatesinbacterialcellwallandcellmembraneandinhibitsthesynthesisofmultiplecellularmacromoleculesinepidemicmethicillinresistantistaphylococcusiiaureusi
AT sukanlayaleejae rhodomyrtoneaccumulatesinbacterialcellwallandcellmembraneandinhibitsthesynthesisofmultiplecellularmacromoleculesinepidemicmethicillinresistantistaphylococcusiiaureusi
AT supayangpvoravuthikunchai rhodomyrtoneaccumulatesinbacterialcellwallandcellmembraneandinhibitsthesynthesisofmultiplecellularmacromoleculesinepidemicmethicillinresistantistaphylococcusiiaureusi
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