Antimicrobial peptides (AMPs) are promising compounds for developing new antibiotic drugs against drug-resistant bacteria. Many of them kill bacteria by perturbing their membranes but exhibit no significant toxicity towards eukaryotic cells. The identification of the features responsible for this selectivity is essential for their pharmacological development. AMPs exhibit few conserved features, but a statistical analysis of an AMP sequence database indicated that many α-helical AMPs surprisingly have a helix-breaking Pro residue in the middle of their sequence. To discriminate among the different possible hypotheses for the functional role of this feature, we designed an analogue of the antimicrobial peptide P5, in which the central Pro was deleted (analogue P5Del). Pro removal resulted in a dramatic increase of toxicity. This was explained by the observation that P5Del binds both charged and neutral membranes, whereas P5 has no appreciable affinity towards neutral bilayers. CD and simulative data provided a rationalization of this behavior. In solution P5, due to the presence of Pro, attains compact conformations, in which its apolar residues are partially shielded from the solvent, whereas P5Del is more helical. These structural differences reduce the hydrophobic driving force for association of P5 to neutral membranes, whereas its binding to anionic bilayers can still take place because of electrostatic attraction. After membrane binding, the Pro residue does not preclude the attainment of a membrane-active amphiphilic helical conformation. These findings shed light on the role of Pro residues in the selectivity of AMPs and provide hints for the design of new, highly selective compounds

Bobone, S., Bocchinfuso, G., Park, Y., Palleschi, A., Hahm, K., Stella, L. (2013). The importance of being kinked: role of Pro residues in the selectivity of the helical antimicrobial peptide P5. JOURNAL OF PEPTIDE SCIENCE, 19, 758-769 [10.1002/psc.2574].

The importance of being kinked: role of Pro residues in the selectivity of the helical antimicrobial peptide P5

Bobone, S;BOCCHINFUSO, GIANFRANCO;PALLESCHI, ANTONIO;STELLA, LORENZO
2013-01-01

Abstract

Antimicrobial peptides (AMPs) are promising compounds for developing new antibiotic drugs against drug-resistant bacteria. Many of them kill bacteria by perturbing their membranes but exhibit no significant toxicity towards eukaryotic cells. The identification of the features responsible for this selectivity is essential for their pharmacological development. AMPs exhibit few conserved features, but a statistical analysis of an AMP sequence database indicated that many α-helical AMPs surprisingly have a helix-breaking Pro residue in the middle of their sequence. To discriminate among the different possible hypotheses for the functional role of this feature, we designed an analogue of the antimicrobial peptide P5, in which the central Pro was deleted (analogue P5Del). Pro removal resulted in a dramatic increase of toxicity. This was explained by the observation that P5Del binds both charged and neutral membranes, whereas P5 has no appreciable affinity towards neutral bilayers. CD and simulative data provided a rationalization of this behavior. In solution P5, due to the presence of Pro, attains compact conformations, in which its apolar residues are partially shielded from the solvent, whereas P5Del is more helical. These structural differences reduce the hydrophobic driving force for association of P5 to neutral membranes, whereas its binding to anionic bilayers can still take place because of electrostatic attraction. After membrane binding, the Pro residue does not preclude the attainment of a membrane-active amphiphilic helical conformation. These findings shed light on the role of Pro residues in the selectivity of AMPs and provide hints for the design of new, highly selective compounds
2013
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore CHIM/02 - CHIMICA FISICA
English
Con Impact Factor ISI
peptide-membrane interactions;fluorescence spectroscopy;molecular dynamics simulations;peptide conformation
Bobone, S., Bocchinfuso, G., Park, Y., Palleschi, A., Hahm, K., Stella, L. (2013). The importance of being kinked: role of Pro residues in the selectivity of the helical antimicrobial peptide P5. JOURNAL OF PEPTIDE SCIENCE, 19, 758-769 [10.1002/psc.2574].
Bobone, S; Bocchinfuso, G; Park, Y; Palleschi, A; Hahm, K; Stella, L
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/84867
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