Antibacterial agents based on the cyclic d,l-α-peptide architecture

Fernandez-Lopez, Sara; Kim, Hui-Sun; Choi, Ellen C.; Delgado, Mercedes; Granja, Juan R.; Khasanov, Alisher; Kraehenbuehl, Karin; Long, Georgina V.; Weinberger, Dana A.; Wilcoxen, Keith; Ghadiri, Mojtaba

doi:10.1038/35086601

Cited by 916 publications

(673 citation statements)

References 18 publications

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“…As peptides which form oligomers upon membrane binding (a prerequisite condition for channel formation) do not readily cross the outer membrane of Gram-negative bacteria [10], this also would seem to suggest that the mechanism of action is via formation of a channel. If maculatin were acting via the`carpet' mechanism, one would expect the peptide to possess activity against both Gram-positive and Gram-negative bacteria [30].…”

Section: Introductionmentioning

confidence: 99%

The orientation of the antibiotic peptide maculatin 1.1 in DMPG and DMPC lipid bilayers. Support for a pore‐forming mechanism

et al. 2002

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Maculatin 1.1 is an antimicrobial peptide isolated from the Australian tree frog Litoria genimaculata that adopts an amphipathic, K K-helical structure in solution. Its orientation and conformation when incorporated to pre-formed DMPG (1,2-dimyristoyl-sn-glycero-3-phosphoglycerol) and DMPC (1,2-dimyristoyl-sn-glycero-3-phosphocholine) vesicles was determined using polarised Fourier transform infrared^attenuated total reflection infrared and deuterium exchange experiments. For DMPG membranes, our results show insertion of V V70% of the maculatin 1.1 molecules, with an angle of insertion of approximately 35³ to the membrane normal and with a predominant K K-helical structure. These results suggest that maculatin 1.1 acts through a pore-forming mechanism to lyse bacterial membranes. A similar degree of insertion in DMPG (65%) and K K-helical structure was observed for a biologically inactive, less amphipathic maculatin 1.1 analogue, P15A, although the helix tilt was found to be greater (46³) than for maculatin 1.1. Similar experiments performed using DMPC liposomes showed poor insertion, less than 5%, for both maculatin 1.1 and its analogue. In addition, the shape of the amide I band in these samples is consistent with K K-helix, L L-structure and disordered structures being present in similar proportion. These results clearly show that maculatin 1.1 inserts preferentially in negatively charged membranes (DMPG) which mimic the negatively charged membrane of Gram-positive bacteria. We attribute the high percentage of insertion of the biologically inactive analogue in DMPG to the fact that its concentration on the membrane surface in our experiments is likely to be much higher than that found in physiological conditions. ß 2002 Federation of European Microbiological Societies. Published by Elsevier Science B.V. All rights reserved.

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Section: Introductionmentioning

confidence: 99%

The orientation of the antibiotic peptide maculatin 1.1 in DMPG and DMPC lipid bilayers. Support for a pore‐forming mechanism

et al. 2002

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“…20 As DLCPs are synthesized via common solid-state peptide synthesis methods 24 , one has the freedom to explore limitless combinations of amino acids and postsynthetic modifications. 25 This versatility has been leveraged to study DLCPs in a variety of applications including structural antibiotics, 26 ion channels, 27 selective ion transporters, 28 and reinforcing agents. 29 Additional research has focused on the fundamental properties of cyclic peptides including the thermodynamics of assembly and the breadth of structural flexibility.…”

Section: Dl-cyclic Peptides (Dlcps) Share Certain Characteristics Wimentioning

confidence: 99%

Structural, Nanomechanical, and Computational Characterization of d,l-Cyclic Peptide Assemblies

et al. 2015

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“…Beauvericin (1), enniatins (2), bassianolide (3) and PF1022A (4) and its congeners contain residues with alternating D and L configuration, similar to 6-8-member cyclic D,L-a-peptide antibacterial agents. 10,11 Variations in the amino acid or the hydroxycarboxylic acid positions of the monomers lead to the production of various COD congeners in a given COD producer fungus. COD production in fungi has hitherto been only documented in the Hypocreomycetidae and the Xylariomycetidae, two subclasses of the Sordariomycetes.…”

Section: Istvan Molnarmentioning

confidence: 99%

Fungal cyclooligomerdepsipeptides: From classical biochemistry to combinatorial biosynthesis

et al. 2011

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Antibacterial agents based on the cyclic d,l-α-peptide architecture

Cited by 916 publications

References 18 publications

The orientation of the antibiotic peptide maculatin 1.1 in DMPG and DMPC lipid bilayers. Support for a pore‐forming mechanism

The orientation of the antibiotic peptide maculatin 1.1 in DMPG and DMPC lipid bilayers. Support for a pore‐forming mechanism

Structural, Nanomechanical, and Computational Characterization of d,l-Cyclic Peptide Assemblies

Fungal cyclooligomerdepsipeptides: From classical biochemistry to combinatorial biosynthesis

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