Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst
Antibiotic vancomycin (Van) is often used as the drug of last resort to treat methicillin resistant Staphylococcus aureus. Due to the emergence of Van-resistant microbes, it is necessary to continuously design strategies to increase the efficacy of Van against resistant cells. In this study, an effi...
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sg-ntu-dr.10356-1596502022-06-29T05:20:43Z Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst Du, Quanchao Wu, Xiangyang Bi, Wuguo Xing, Bengang Yeow, Edwin Kok Lee School of Physical and Mathematical Sciences Science::Chemistry Antibiotic Activity Near-Infrared Antibiotic vancomycin (Van) is often used as the drug of last resort to treat methicillin resistant Staphylococcus aureus. Due to the emergence of Van-resistant microbes, it is necessary to continuously design strategies to increase the efficacy of Van against resistant cells. In this study, an efficient method of bio-conjugating Van to bacteria is proposed using near-infrared (NIR)-light activation. A Nd³⁺-sensitized upconversion nanocrystal (UCNC) decorated with toluidine blue O (TB) on its surface undergoes upconverted energy transfer from the UCNC to TB when excited by 808 nm light. The photoexcited TB then catalyses the conversion of the dihydrotetrazine (dHTz) moiety in a Van-dHTz conjugate system to tetrazine which undergoes an efficient inverse electron demand Diels-Alder reaction with prior attached norbornene molecules on bacterial cell walls. The enhanced affinity of Van to bacteria by covalent bonding improves the activity of the drug against drug-resistant Enterococci, and the MIC is reduced by 6- to 7-fold as compared to neat Van. We demonstrate that the mode of action is due to increased inhibition of peptidoglycan cell wall biosynthesis. The findings in this study demonstrate that on-demand NIR-light activated bioorthogonal conjugation of Van to microbes is a viable alternative treatment in combating drug-resistant bacteria. Ministry of Education (MOE) E. K. L. Y acknowledges the Singapore Ministry of Education MoE Tier 1 fund (RG6/18) for financial support. 2022-06-29T05:20:43Z 2022-06-29T05:20:43Z 2021 Journal Article Du, Q., Wu, X., Bi, W., Xing, B. & Yeow, E. K. L. (2021). Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst. Journal of Materials Chemistry B, 9(14), 3136-3142. https://dx.doi.org/10.1039/d0tb02568b 2050-750X https://hdl.handle.net/10356/159650 10.1039/d0tb02568b 33656045 2-s2.0-85104185202 14 9 3136 3142 en RG6/18 Journal of Materials Chemistry B © 2201 The Royal Society of Chemistry. All rights reserved. |
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Science::Chemistry Antibiotic Activity Near-Infrared Du, Quanchao Wu, Xiangyang Bi, Wuguo Xing, Bengang Yeow, Edwin Kok Lee Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst |
| description |
Antibiotic vancomycin (Van) is often used as the drug of last resort to treat methicillin resistant Staphylococcus aureus. Due to the emergence of Van-resistant microbes, it is necessary to continuously design strategies to increase the efficacy of Van against resistant cells. In this study, an efficient method of bio-conjugating Van to bacteria is proposed using near-infrared (NIR)-light activation. A Nd³⁺-sensitized upconversion nanocrystal (UCNC) decorated with toluidine blue O (TB) on its surface undergoes upconverted energy transfer from the UCNC to TB when excited by 808 nm light. The photoexcited TB then catalyses the conversion of the dihydrotetrazine (dHTz) moiety in a Van-dHTz conjugate system to tetrazine which undergoes an efficient inverse electron demand Diels-Alder reaction with prior attached norbornene molecules on bacterial cell walls. The enhanced affinity of Van to bacteria by covalent bonding improves the activity of the drug against drug-resistant Enterococci, and the MIC is reduced by 6- to 7-fold as compared to neat Van. We demonstrate that the mode of action is due to increased inhibition of peptidoglycan cell wall biosynthesis. The findings in this study demonstrate that on-demand NIR-light activated bioorthogonal conjugation of Van to microbes is a viable alternative treatment in combating drug-resistant bacteria. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Du, Quanchao Wu, Xiangyang Bi, Wuguo Xing, Bengang Yeow, Edwin Kok Lee |
| format |
Article |
| author |
Du, Quanchao Wu, Xiangyang Bi, Wuguo Xing, Bengang Yeow, Edwin Kok Lee |
| author_sort |
Du, Quanchao |
| title |
Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst |
| title_short |
Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst |
| title_full |
Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst |
| title_fullStr |
Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst |
| title_full_unstemmed |
Increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst |
| title_sort |
increasing antibiotic activity by rapid bioorthogonal conjugation of drug to resistant bacteria using an upconverted light-activated photocatalyst |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159650 |
| _version_ |
1738844944463822848 |