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Literature DB >> 26214729

N-Lipidated Peptide Dimers: Effective Antibacterial Agents against Gram-Negative Pathogens through Lipopolysaccharide Permeabilization.

Jun-Jie Koh^1,2, Huifen Lin¹, Vonny Caroline¹, Yu Siang Chew¹, Li Mei Pang¹, Thet Tun Aung¹, Jianguo Li^1,3, Rajamani Lakshminarayanan^1,4, Donald T H Tan^2,5, Chandra Verma^1,3,6,7, Ai Ling Tan⁸, Roger W Beuerman^1,4, Shouping Liu^1,4.

Abstract

Treating infections caused by multidrug-resistant Gram-negative pathogens is challenging, and there is concern regarding the toxicity of the most effective antimicrobials for Gram-negative pathogens. We hypothesized that conjugating a fatty acid moiety onto a peptide dimer could maximize the interaction with lipopolysaccharide (LPS) and facilitate the permeabilization of the LPS barrier, thereby improving potency against Gram-negative pathogens. We systematically designed a series of N-lipidated peptide dimers that are active against Gram-negative bacteria, including carbapenem-resistant Enterobacteriaceae (CRE). The optimized lipid length was 6-10 carbons. At these lipid lengths, the N-lipidated peptide dimers exhibited strong LPS permeabilization. Compound 23 exhibited synergy with select antibiotics in most of the combinations tested. 23 and 32 also displayed rapid bactericidal activity. Importantly, 23 and 32 were nonhemolytic at 10 mg/mL, with no cellular or in vivo toxicity. These characteristics suggest that these compounds can overcome the limitations of current Gram-negative-targeted antimicrobials such as polymyxin B.

Entities: Chemical Disease

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Year: 2015 PMID： 26214729 DOI： 10.1021/acs.jmedchem.5b00628

Source DB: PubMed Journal: J Med Chem ISSN： 0022-2623 Impact factor: 7.446

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Cited

10 in total

1. Synthetic Antibacterial Peptide Exhibits Synergy with Oxacillin against MRSA.

Authors: John C Lainson; Seth M Daly; Kathleen Triplett; Stephen Albert Johnston; Pamela R Hall; Chris W Diehnelt
Journal: ACS Med Chem Lett Date: 2017-07-07 Impact factor: 4.345

2. Dimeric lipo-α/sulfono-γ-AA hybrid peptides as broad-spectrum antibiotic agents.

Authors: Lulu Wei; Ruixuan Gao; Minghui Wang; Yafeng Wang; Yan Shi; Meng Gu; Jianfeng Cai
Journal: Biomater Sci Date: 2021-05-04 Impact factor: 6.843

3. Outer membrane and phospholipid composition of the target membrane affect the antimicrobial potential of first- and second-generation lipophosphonoxins.

Authors: Klára Látrová; Noemi Havlová; Renata Večeřová; Dominik Pinkas; Kateřina Bogdanová; Milan Kolář; Radovan Fišer; Ivo Konopásek; Duy Dinh Do Pham; Dominik Rejman; Gabriela Mikušová
Journal: Sci Rep Date: 2021-05-17 Impact factor: 4.379

4. Membrane-active macromolecules kill antibiotic-tolerant bacteria and potentiate antibiotics towards Gram-negative bacteria.

Authors: Divakara S S M Uppu; Mohini M Konai; Paramita Sarkar; Sandip Samaddar; Isabel C M Fensterseifer; Celio Farias-Junior; Paramanandam Krishnamoorthy; Bibek R Shome; Octávio L Franco; Jayanta Haldar
Journal: PLoS One Date: 2017-08-24 Impact factor: 3.240

Review 5. Membrane Active Antimicrobial Peptides: Translating Mechanistic Insights to Design.

Authors: Jianguo Li; Jun-Jie Koh; Shouping Liu; Rajamani Lakshminarayanan; Chandra S Verma; Roger W Beuerman
Journal: Front Neurosci Date: 2017-02-14 Impact factor: 4.677

6. Blood Compatibility-An Important but Often Forgotten Aspect of the Characterization of Antimicrobial Peptides for Clinical Application.

Authors: Stephan Harm; Karl Lohner; Ute Fichtinger; Claudia Schildböck; Jennifer Zottl; Jens Hartmann
Journal: Int J Mol Sci Date: 2019-10-31 Impact factor: 5.923

N-Lipidated Peptide Dimers: Effective Antibacterial Agents against Gram-Negative Pathogens through Lipopolysaccharide Permeabilization.

1. Synthetic Antibacterial Peptide Exhibits Synergy with Oxacillin against MRSA.

2. Dimeric lipo-α/sulfono-γ-AA hybrid peptides as broad-spectrum antibiotic agents.

3. Outer membrane and phospholipid composition of the target membrane affect the antimicrobial potential of first- and second-generation lipophosphonoxins.

4. Membrane-active macromolecules kill antibiotic-tolerant bacteria and potentiate antibiotics towards Gram-negative bacteria.

Review 5. Membrane Active Antimicrobial Peptides: Translating Mechanistic Insights to Design.

6. Blood Compatibility-An Important but Often Forgotten Aspect of the Characterization of Antimicrobial Peptides for Clinical Application.

Review 7. Lipidation of Antimicrobial Peptides as a Design Strategy for Future Alternatives to Antibiotics.

8. Membrane-Active Antibacterial Agents Based on Calix[4]arene Derivatives: Synthesis and Biological Evaluation.

9. C-Locked Analogs of the Antimicrobial Peptide BP214.

10. N-terminal Myristoylation Enhanced the Antimicrobial Activity of Antimicrobial Peptide PMAP-36PW.