Cathelicidins are a recently discovered family of effector molecules in innate immunity. In the past few years, a great deal of investigations have elucidated several aspects of their biology, such as the gene structure and activation mechanism. Despite substantial progress in the field, several issues remain to be clarified, including the biological role of the conserved proregion and the molecular mechanisms responsible for diversification of the peptide domain. The cathelicidin-derived peptides have been deeply investigated with respect to structure, spectrum of activity and mechanism of action. In general, they show a potent in vitro activity against antibiotic-resistant microorganisms. The widespread diffusion of multi-resistant strains has highlighted their potential as lead compounds for the development of novel antiinfective agents. Indeed, some of these peptides, or analogs, are already under advanced clinical trials for the treatment of topical infections. Finally, several reports suggesting that cathelicidin peptides may play additional roles in host defense, such as wound healing and chemotactic activity, have opened new fields of investigations. Further studies however are required to clearly establish the physiological relevance of the observed effects.

Structure and biology of cathelicidins

GENNARO, RENATO;SCOCCHI, MARCO;
2000-01-01

Abstract

Cathelicidins are a recently discovered family of effector molecules in innate immunity. In the past few years, a great deal of investigations have elucidated several aspects of their biology, such as the gene structure and activation mechanism. Despite substantial progress in the field, several issues remain to be clarified, including the biological role of the conserved proregion and the molecular mechanisms responsible for diversification of the peptide domain. The cathelicidin-derived peptides have been deeply investigated with respect to structure, spectrum of activity and mechanism of action. In general, they show a potent in vitro activity against antibiotic-resistant microorganisms. The widespread diffusion of multi-resistant strains has highlighted their potential as lead compounds for the development of novel antiinfective agents. Indeed, some of these peptides, or analogs, are already under advanced clinical trials for the treatment of topical infections. Finally, several reports suggesting that cathelicidin peptides may play additional roles in host defense, such as wound healing and chemotactic activity, have opened new fields of investigations. Further studies however are required to clearly establish the physiological relevance of the observed effects.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/1687577
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