Marco Ieronimo scite author profile

The effect of C-terminal amidation on the antimicrobial and hemolytic activities of antimicrobial peptides was studied using three cationic peptides which form amphiphilic α-helices when bound to membranes. The natural antimicrobial peptide PGLa, the designer-made antibiotic MSI-103, and the cell-penetrating "model amphipathic peptide" (MAP) are all amidated in their original forms, and their biological activities were compared with the same sequences carrying a free C-terminus. It was found that, in general, a free COOH-terminus reduces both the antimicrobial activity and the hemolytic side effects of the peptides. The only exception was observed for MSI-103, whose antimicrobial activity was not decreased in the acid form. Having shown that the therapeutic index (TI) of this novel peptide is significantly higher than for the other tested peptides, with high antibiotic activity and little undesired effects, we suggest that it could be a useful starting point for further development of new peptide antibiotics.

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Temperature-Dependent Transmembrane Insertion of the Amphiphilic Peptide PGLa in Lipid Bilayers Observed by Solid State ¹⁹F NMR Spectroscopy

Afonin

Grage

Ieronimo

et al. 2008

J. Am. Chem. Soc.

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Optimized Protocol for Synthesis of Cyclic Gramicidin S: Starting Amino Acid Is Key to High Yield

et al. 2005

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[structures: see text] A simple and highly efficient Fmoc solid-phase protocol for synthesizing the antimicrobial decapeptide gramicidin S and various labeled analogues is presented. When preparing the linear precursor peptides (1a-e), a systematic permutation of the starting amino acid within the cyclic sequence gave different yields between 51% and 93%. Also the subsequent step of cyclization gave widely diverging yields between 26% and 74%, depending again on the starting amino acid. The ease of cyclization was found to correlate with the tendency of the respective linear precursor peptide to assume a preorganized conformation, as observed by circular dichroism. The overall yield is thus critically dependent on the starting amino acid and can be raised from 20% to 70% using (D)Phe. The choice of coupling agent and its counterion was found to play only a marginal role. Irrespective of being able to assume a preorganized conformation, none of the linear precursor peptides exhibited any antimicrobial or hemolytic activity. Using the optimized protocol, which involves only simple Fmoc-couplings and requires no intermittent purification steps, several gramicidin S analogues (3-8) containing 19F-labeled phenylglycine derivatives and/or 15N-labeled amino acids were synthesized for solid-state NMR structure analysis.

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Solid-State 19F-NMR of Peptides in Native Membranes

Koch

Afonin

Ieronimo

et al. 2011

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To understand how membrane-active peptides (MAPs) function in vivo, it is essential to obtain structural information about them in their membrane-bound state. Most biophysical approaches rely on the use of bilayers prepared from synthetic phospholipids, i.e. artificial model membranes. A particularly successful structural method is solid-state NMR, which makes use of macroscopically oriented lipid bilayers to study selectively isotope-labelled peptides. Native biomembranes, however, have a far more complex lipid composition and a significant non-lipidic content (protein and carbohydrate). Model membranes, therefore, are not really adequate to address questions concerning for example the selectivity of these membranolytic peptides against prokaryotic vs eukaryotic cells, their varying activities against different bacterial strains, or other related biological issues.Here, we discuss a solid-state (19)F-NMR approach that has been developed for structural studies of MAPs in lipid bilayers, and how this can be translated to measurements in native biomembranes. We review the essentials of the methodology and discuss key objectives in the practice of (19)F-labelling of peptides. Furthermore, the preparation of macroscopically oriented biomembranes on solid supports is discussed in the context of other membrane models. Two native biomembrane systems are presented as examples: human erythrocyte ghosts as representatives of eukaryotic cell membranes, and protoplasts from Micrococcus luteus as membranes from Gram-positive bacteria. Based on our latest experimental experience with the antimicrobial peptide gramicidin S, the benefits and some implicit drawbacks of using such supported native membranes in solid-state (19)F-NMR analysis are discussed.

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¹⁹F NMR Analysis of the Antimicrobial Peptide PGLa Bound to Native Cell Membranes from Bacterial Protoplasts and Human Erythrocytes

et al. 2010

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(19)F NMR is a unique tool to examine the structure of fluorine-labeled peptides in their native cellular environment, due to an exquisite sensitivity and lack of natural abundance background. For solid-state NMR analysis, we isolated native membranes from erythrocyte ghosts and bacterial protoplasts and prepared them as macroscopically oriented samples. They showed a high purity and quality of alignment according to (31)P NMR, and the membrane-bound antimicrobial peptide PGLa could be detected by (19)F NMR. The characteristic fingerprint splitting of its (19)F reporter group indicated that the peptide helix binds to the native membranes in a surface alignment, albeit with a higher affinity in the prokaryotic than the eukaryotic system.

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Marco Ieronimo

Influence of C-terminal amidation on the antimicrobial and hemolytic activities of cationic α-helical peptides

Temperature-Dependent Transmembrane Insertion of the Amphiphilic Peptide PGLa in Lipid Bilayers Observed by Solid State ¹⁹F NMR Spectroscopy

Optimized Protocol for Synthesis of Cyclic Gramicidin S: Starting Amino Acid Is Key to High Yield

Solid-State 19F-NMR of Peptides in Native Membranes

¹⁹F NMR Analysis of the Antimicrobial Peptide PGLa Bound to Native Cell Membranes from Bacterial Protoplasts and Human Erythrocytes

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Marco Ieronimo

Influence of C-terminal amidation on the antimicrobial and hemolytic activities of cationic α-helical peptides

Temperature-Dependent Transmembrane Insertion of the Amphiphilic Peptide PGLa in Lipid Bilayers Observed by Solid State 19F NMR Spectroscopy

Optimized Protocol for Synthesis of Cyclic Gramicidin S: Starting Amino Acid Is Key to High Yield

Solid-State 19F-NMR of Peptides in Native Membranes

19F NMR Analysis of the Antimicrobial Peptide PGLa Bound to Native Cell Membranes from Bacterial Protoplasts and Human Erythrocytes

Contact Info

Product

Resources

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Temperature-Dependent Transmembrane Insertion of the Amphiphilic Peptide PGLa in Lipid Bilayers Observed by Solid State ¹⁹F NMR Spectroscopy

¹⁹F NMR Analysis of the Antimicrobial Peptide PGLa Bound to Native Cell Membranes from Bacterial Protoplasts and Human Erythrocytes