Multi-armed antibiotics for Gram-positive bacteria

Yuexiao Jia; Wenwen Chen; Rongbing Tang; Jiangjiang Zhang; Xiaoyan Liu; Ruihua Dong; Fupin Hu; Xingyu Jiang

doi:10.1016/j.chom.2023.06.008

Multi-armed antibiotics for Gram-positive bacteria

Yuexiao Jia, Wenwen Chen, Rongbing Tang, Jiangjiang Zhang, Xiaoyan Liu, Ruihua Dong, Fupin Hu, Xingyu Jiang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Antibiotic resistance is a serious threat to public health. Here, we propose a multi-armed chemical scaffold (MACS) for antibiotic screening, which refers to multi-armed molecules (MAMs) consisting of a core unit and three or four arms, neither of which is active for pathogens. Based on a structure-activity relationship study of MAMs, we discover a class of multi-armed antibiotics (MAAs) with a core similar to ethylene (E), carbon atom (C), benzene (B), nitrogen atom (N), and triazine (T) and three or four 4-phenylbenzoic acid (PBA) arms, or a B core and three 4-vinylbenzoic acid (VBA) or 4-ethynylbenzoic acid (EBA) arms. They can selectively interact with Gram-positive bacteria and inhibit cell wall assembly by targeting the lipid carriers of cell wall biosynthesis. MAAs have excellent antibacterial activities against Gram-positive bacteria, including clinical multi-drug-resistant (MDR) isolates. Our study provides a chemical scaffold and identifies eight antibacterial lead compounds for the development of antibiotics.

Original language	English
Pages (from-to)	1101-1110.e5
Journal	Cell Host and Microbe
Volume	31
Issue number	7
DOIs	https://doi.org/10.1016/j.chom.2023.06.008
Publication status	Published - 12 Jul 2023
Externally published	Yes

Keywords

antibiotics
cell wall assembly
low risk of resistance
multi-drug resistant bacteria

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.chom.2023.06.008

Cite this

Jia, Y., Chen, W., Tang, R., Zhang, J., Liu, X., Dong, R., Hu, F., & Jiang, X. (2023). Multi-armed antibiotics for Gram-positive bacteria. Cell Host and Microbe, 31(7), 1101-1110.e5. https://doi.org/10.1016/j.chom.2023.06.008

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abstract = "Antibiotic resistance is a serious threat to public health. Here, we propose a multi-armed chemical scaffold (MACS) for antibiotic screening, which refers to multi-armed molecules (MAMs) consisting of a core unit and three or four arms, neither of which is active for pathogens. Based on a structure-activity relationship study of MAMs, we discover a class of multi-armed antibiotics (MAAs) with a core similar to ethylene (E), carbon atom (C), benzene (B), nitrogen atom (N), and triazine (T) and three or four 4-phenylbenzoic acid (PBA) arms, or a B core and three 4-vinylbenzoic acid (VBA) or 4-ethynylbenzoic acid (EBA) arms. They can selectively interact with Gram-positive bacteria and inhibit cell wall assembly by targeting the lipid carriers of cell wall biosynthesis. MAAs have excellent antibacterial activities against Gram-positive bacteria, including clinical multi-drug-resistant (MDR) isolates. Our study provides a chemical scaffold and identifies eight antibacterial lead compounds for the development of antibiotics.",

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author = "Yuexiao Jia and Wenwen Chen and Rongbing Tang and Jiangjiang Zhang and Xiaoyan Liu and Ruihua Dong and Fupin Hu and Xingyu Jiang",

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AU - Hu, Fupin

AU - Jiang, Xingyu

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AB - Antibiotic resistance is a serious threat to public health. Here, we propose a multi-armed chemical scaffold (MACS) for antibiotic screening, which refers to multi-armed molecules (MAMs) consisting of a core unit and three or four arms, neither of which is active for pathogens. Based on a structure-activity relationship study of MAMs, we discover a class of multi-armed antibiotics (MAAs) with a core similar to ethylene (E), carbon atom (C), benzene (B), nitrogen atom (N), and triazine (T) and three or four 4-phenylbenzoic acid (PBA) arms, or a B core and three 4-vinylbenzoic acid (VBA) or 4-ethynylbenzoic acid (EBA) arms. They can selectively interact with Gram-positive bacteria and inhibit cell wall assembly by targeting the lipid carriers of cell wall biosynthesis. MAAs have excellent antibacterial activities against Gram-positive bacteria, including clinical multi-drug-resistant (MDR) isolates. Our study provides a chemical scaffold and identifies eight antibacterial lead compounds for the development of antibiotics.

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KW - cell wall assembly

KW - low risk of resistance

KW - multi-drug resistant bacteria

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Multi-armed antibiotics for Gram-positive bacteria

Abstract

Keywords

UN SDGs

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