We have designed a cyclic 17-amino acid β-defensin analog featuring a single disulfide bond. This analog, designated "AMC" (ie, antimicrobial cyclic peptide), combines the internal hydrophobic domain of hBD1 and the C-terminal charged region of hBD3. The novel peptide was synthesized and characterized by nuclear magnetic resonance spectroscopy. The antimicrobial activities against gram-positive and gram-negative bacteria as well as against herpes simplex virus type 1 were analyzed. The cytotoxicity and serum stability were assessed. Nuclear magnetic resonance of AMC in aqueous solution suggests that the structure of the hBD1 region, although not identical, is preserved. Like the parent defensins, AMC is not cytotoxic for CaCo-2 cells. Interestingly, AMC retains the antibacterial activity of the parent hBD1 and hBD3 against Pseudomonas aeruginosa, Enterococcus faecalis, and Escherichia coli, and exerts dose-dependent activity against herpes simplex virus type 1. Moreover, while the antibacterial and antiviral activities of the oxidized and reduced forms of the parent defensins are similar, those of AMC are significantly different, and oxidized AMC is also considerably more stable in human serum. Taken together, our data also suggest that this novel peptide may be added to the arsenal of tools available to combat antibiotic-resistant infectious diseases, particularly because of its potential for encapsulation in a nanomedicine vector.

Design and activity of a cyclic mini-β-defensin analog: a novel antimicrobial tool / Scudiero, Olga; Nigro, Ersilia; Cantisani, Marco; Colavita, Irene; Leone, Marilisa; Mercurio, Flavia Anna; Galdiero, Massimiliano; Pessi, Antonello; Daniele, Aurora; Salvatore, Francesco; Galdiero, Stefania. - In: INTERNATIONAL JOURNAL OF NANOMEDICINE. - ISSN 1178-2013. - 10:(2015), pp. 6523-6539. [10.2147/IJN.S89610]

Design and activity of a cyclic mini-β-defensin analog: a novel antimicrobial tool

SCUDIERO, OLGA
Primo
;
NIGRO, ERSILIA;CANTISANI, MARCO;COLAVITA, IRENE;Daniele, Aurora;SALVATORE, FRANCESCO;GALDIERO, STEFANIA
Ultimo
Conceptualization
2015

Abstract

We have designed a cyclic 17-amino acid β-defensin analog featuring a single disulfide bond. This analog, designated "AMC" (ie, antimicrobial cyclic peptide), combines the internal hydrophobic domain of hBD1 and the C-terminal charged region of hBD3. The novel peptide was synthesized and characterized by nuclear magnetic resonance spectroscopy. The antimicrobial activities against gram-positive and gram-negative bacteria as well as against herpes simplex virus type 1 were analyzed. The cytotoxicity and serum stability were assessed. Nuclear magnetic resonance of AMC in aqueous solution suggests that the structure of the hBD1 region, although not identical, is preserved. Like the parent defensins, AMC is not cytotoxic for CaCo-2 cells. Interestingly, AMC retains the antibacterial activity of the parent hBD1 and hBD3 against Pseudomonas aeruginosa, Enterococcus faecalis, and Escherichia coli, and exerts dose-dependent activity against herpes simplex virus type 1. Moreover, while the antibacterial and antiviral activities of the oxidized and reduced forms of the parent defensins are similar, those of AMC are significantly different, and oxidized AMC is also considerably more stable in human serum. Taken together, our data also suggest that this novel peptide may be added to the arsenal of tools available to combat antibiotic-resistant infectious diseases, particularly because of its potential for encapsulation in a nanomedicine vector.
2015
Design and activity of a cyclic mini-β-defensin analog: a novel antimicrobial tool / Scudiero, Olga; Nigro, Ersilia; Cantisani, Marco; Colavita, Irene; Leone, Marilisa; Mercurio, Flavia Anna; Galdiero, Massimiliano; Pessi, Antonello; Daniele, Aurora; Salvatore, Francesco; Galdiero, Stefania. - In: INTERNATIONAL JOURNAL OF NANOMEDICINE. - ISSN 1178-2013. - 10:(2015), pp. 6523-6539. [10.2147/IJN.S89610]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/612828
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