Molecular Sizes and Antibacterial Performance Relationships of Flexible Ionic Liquid Derivatives

Molecular Sizes and Antibacterial Performance Relationships of Flexible Ionic Liquid Derivatives

Cationic agents, such as ionic liquids (ILs)-based species, have broad-spectrum antibacterial activities. However, the antibacterial mechanisms lack systematic and molecular-level research, especially for Gram-negative bacteria, which have highly organized membrane structures. Here, we designed a se...

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Veröffentlicht in:Journal of the American Chemical Society 2020-11, Vol.142 (47), p.20257-20269
Hauptverfasser: Zheng, Liang, Li, Jing, Yu, Manman, Jia, Weibin, Duan, Shun, Cao, Dapeng, Ding, Xiaokang, Yu, Bingran, Zhang, Xianren, Xu, Fu-Jian
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container_end_page 20269
container_issue 47
container_start_page 20257
container_title Journal of the American Chemical Society
container_volume 142
creator Zheng, Liang
Li, Jing
Yu, Manman
Jia, Weibin
Duan, Shun
Cao, Dapeng
Ding, Xiaokang
Yu, Bingran
Zhang, Xianren
Xu, Fu-Jian
description Cationic agents, such as ionic liquids (ILs)-based species, have broad-spectrum antibacterial activities. However, the antibacterial mechanisms lack systematic and molecular-level research, especially for Gram-negative bacteria, which have highly organized membrane structures. Here, we designed a series of flexible fluorescent diketopyrrolopyrrole-based ionic liquid derivatives (ILDs) with various molecular sizes (1.95–4.2 nm). The structure–antibacterial activity relationships of the ILDs against Escherichia coli (E. coli) were systematically studied thorough antibacterial tests, fluorescent tracing, morphology analysis, molecular biology, and molecular dynamics (MD) simulations. ILD-6, with a relatively small molecular size, could penetrate through the bacterial membrane, leading to membrane thinning and intracellular activities. ILD-6 showed fast and efficient antimicrobial activity. With the increase of molecular sizes, the corresponding ILDs were proven to intercalate into the bacterial membrane, leading to the destabilization of the lipid bilayer and further contributing to the antimicrobial activities. Moreover, the antibacterial activity of ILD-8 was limited, where the size was not large enough to introduce significant membrane disorder. Relative antibacterial experiments using another common Gram-negative bacteria, Pseudomonas aeruginosa (PAO1), further confirmed the proposed structure-antibacterial activity relationships of ILDs. More impressively, both ILD-6 and ILD-12 displayed significant in vivo therapeutic effects on the PAO1-infected rat model, while ILD-8 performed poorly, which confirmed the antibacterial mechanism of ILDs and proved their potentials for future application. This work clarifies the interactions between molecular sizes of ionic liquid-based species and Gram-negative bacteria and will provide useful guidance for the rational design of high-performance antibacterial agents.
doi_str_mv 10.1021/jacs.0c10771
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With the increase of molecular sizes, the corresponding ILDs were proven to intercalate into the bacterial membrane, leading to the destabilization of the lipid bilayer and further contributing to the antimicrobial activities. Moreover, the antibacterial activity of ILD-8 was limited, where the size was not large enough to introduce significant membrane disorder. Relative antibacterial experiments using another common Gram-negative bacteria, Pseudomonas aeruginosa (PAO1), further confirmed the proposed structure-antibacterial activity relationships of ILDs. More impressively, both ILD-6 and ILD-12 displayed significant in vivo therapeutic effects on the PAO1-infected rat model, while ILD-8 performed poorly, which confirmed the antibacterial mechanism of ILDs and proved their potentials for future application. 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Am. Chem. Soc</addtitle><date>2020-11-25</date><risdate>2020</risdate><volume>142</volume><issue>47</issue><spage>20257</spage><epage>20269</epage><pages>20257-20269</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><abstract>Cationic agents, such as ionic liquids (ILs)-based species, have broad-spectrum antibacterial activities. However, the antibacterial mechanisms lack systematic and molecular-level research, especially for Gram-negative bacteria, which have highly organized membrane structures. Here, we designed a series of flexible fluorescent diketopyrrolopyrrole-based ionic liquid derivatives (ILDs) with various molecular sizes (1.95–4.2 nm). The structure–antibacterial activity relationships of the ILDs against Escherichia coli (E. coli) were systematically studied thorough antibacterial tests, fluorescent tracing, morphology analysis, molecular biology, and molecular dynamics (MD) simulations. 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