The lantibiotic Pep5 is produced by Staphylococcus epidermidis 5. Within its biosynthetic gene cl... more The lantibiotic Pep5 is produced by Staphylococcus epidermidis 5. Within its biosynthetic gene cluster, the immunity gene pepI, providing producer self-protection, is localized upstream of the structural gene pepA. Pep5 production and the immunity phenotype have been found to be tightly coupled (M. Reis, M. Eschbach-Bludau, M. I. Iglesias-Wind, T. Kupke, and H.-G. Sahl, Appl. Environ. Microbiol. 60:2876-2883, 1994). To study this phenomenon, we analyzed pepA and pepI transcription and translation and constructed a number of strains containing various fragments of the gene cluster and expressing different levels of immunity. Complementation of a pepA-expressing strain with pepI in trans did not result in phenotypic immunity or production of PepI. On the other hand, neither pepA nor its product was found to be involved in immunity, since suppression of the translation of the pepA mRNA by mutation of the ATG start codon did not reduce the level of immunity. Moreover, homologous and het...
In nature, alpha-helical antimicrobial peptides present the small and flexible residue glycine at... more In nature, alpha-helical antimicrobial peptides present the small and flexible residue glycine at positions 7 or 14 with a significant frequency. Based on the sequence of the non-proteinogenic alpha-helical model peptide P1(Aib7), with a potent, broad spectrum antimicrobial activity, six peptides were designed by effecting a single amino acid substitution to investigate how tuning the structural characteristics at position 7 could lead to optimization of selectivity without affecting antimicrobial activity against a broad panel of multidrug resistant bacterial and yeast indicator strains. The relationship between structural features (size/hydrophobicity of the side chain as well as conformation and flexibility) and biological activity, in terms of minimum inhibitory concentration, membrane permeabilization kinetics and lysis of red blood cells are discussed. On conversion of the peptide to proteinogenic residues, these principles allowed development of a potent antimicrobial peptide with a reduced cytotoxicity. However, while results suggest that both hydrophobicity of residue 7 and chain flexibility at this position can be modulated to improve selectivity, position 14 is less tolerant of substitutions.
Recent studies on the mode of action have revealed exciting features of multiple activities of ni... more Recent studies on the mode of action have revealed exciting features of multiple activities of nisin and related lantibiotics making these peptides interesting model systems for the design of new antibiotics (Molec. Microbiol. 30 (1998) 317; Science 286 (1999) 2361; J. Biol. Chem. 276 (2001) 1772.). In contrast to other groups of antibiotic peptides, the lantibiotics display a substantial degree of specificity for particular components of bacterial membranes. Mersacidin and actagardine were shown to bind with high affinity to the lipid coupled peptidoglycan precursor, the so-called lipid II, which prevents the polymerisation of the cell wall monomers into a functional murein sacculus. The lantibiotics nisin and epidermin also bind tightly to this cell wall precursor; however, for these lantibiotics the binding of lipid II has two consequences. Like with mersacidin blocking of lipid II inhibits peptidoglycan biosynthesis; in addition, lipid II is used as a specific docking molecule for the formation of pores. This combination of lethal effects explains the potency of these peptides, which are active in nanomolar concentration. Other type-A lantibiotics are believed to also use docking molecules for pore formation, although identification of such membrane components has not yet been achieved.
Lantibiotics are antibiotic peptides distinguished by the presence of the rare thioether amino ac... more Lantibiotics are antibiotic peptides distinguished by the presence of the rare thioether amino acids lanthionine and/or methyllanthionine. They are produced by Gram-positive bacteria as gene-encoded precursor peptides and undergo post-translational modification to generate the mature peptide. The structural gene for the prepeptide and the genes involved in biosynthesis, processing, export as well as regulation and producer strain self-protection are organized in clusters. Based on their structural and functional features lantibiotics are currently divided into two major groups. The flexible amphiphilic type-A lantibiotics act primarily by pore formation in the bacterial membrane, a mechanism which was recently shown, e.g. for nisin and epidermin, to involve the interaction with specific docking molecules such as the membrane precursor lipid II. The rather rigid and globular type-B lantibiotics inhibit enzyme functions through interaction with the respective substrates: mersacidin and actagardine inhibit the cell wall biosynthesis by complexing lipid II, whereas the cinnamycin-like peptides inhibit phospholipases by binding phosphoethanolamine. Lantibiotics have attracted much attention in recent years and undergone extensive characterization. New insights into the mode of action and structure-function relationships as well as the biochemistry and the genetics will be outlined in this review.
A template based on positional residue frequencies in the N-terminal stretch of natural alpha-hel... more A template based on positional residue frequencies in the N-terminal stretch of natural alpha-helical antimicrobial peptides was used to prepare sequence patterns and to scan the Swiss-Prot Database, using the ScanProsite tool. This search identified a segment in pilosulin 1, a cytotoxic peptide from the venom of the jumper ant Myrmecia pilosula, as a potential novel antimicrobial peptide sequence. This segment, corresponding to the 20 N-terminal residues, was synthesized and its structural properties and biological activities were investigated. It showed a potent and broad spectrum antimicrobial activity including standard and multi-drug resistant gram-positive and gram-negative bacteria and Candida albicans, confirming the validity of the search method. A rational redesign approach resulting in four amino acid substitutions yielded a variant with improved antibacterial and significantly reduced hemolytic activity.
The lantibiotic Pep5 is produced by Staphylococcus epidermidis 5. Within its biosynthetic gene cl... more The lantibiotic Pep5 is produced by Staphylococcus epidermidis 5. Within its biosynthetic gene cluster, the immunity gene pepI, providing producer self-protection, is localized upstream of the structural gene pepA. Pep5 production and the immunity phenotype have been found to be tightly coupled (M. Reis, M. Eschbach-Bludau, M. I. Iglesias-Wind, T. Kupke, and H.-G. Sahl, Appl. Environ. Microbiol. 60:2876-2883, 1994). To study this phenomenon, we analyzed pepA and pepI transcription and translation and constructed a number of strains containing various fragments of the gene cluster and expressing different levels of immunity. Complementation of a pepA-expressing strain with pepI in trans did not result in phenotypic immunity or production of PepI. On the other hand, neither pepA nor its product was found to be involved in immunity, since suppression of the translation of the pepA mRNA by mutation of the ATG start codon did not reduce the level of immunity. Moreover, homologous and het...
In nature, alpha-helical antimicrobial peptides present the small and flexible residue glycine at... more In nature, alpha-helical antimicrobial peptides present the small and flexible residue glycine at positions 7 or 14 with a significant frequency. Based on the sequence of the non-proteinogenic alpha-helical model peptide P1(Aib7), with a potent, broad spectrum antimicrobial activity, six peptides were designed by effecting a single amino acid substitution to investigate how tuning the structural characteristics at position 7 could lead to optimization of selectivity without affecting antimicrobial activity against a broad panel of multidrug resistant bacterial and yeast indicator strains. The relationship between structural features (size/hydrophobicity of the side chain as well as conformation and flexibility) and biological activity, in terms of minimum inhibitory concentration, membrane permeabilization kinetics and lysis of red blood cells are discussed. On conversion of the peptide to proteinogenic residues, these principles allowed development of a potent antimicrobial peptide with a reduced cytotoxicity. However, while results suggest that both hydrophobicity of residue 7 and chain flexibility at this position can be modulated to improve selectivity, position 14 is less tolerant of substitutions.
Recent studies on the mode of action have revealed exciting features of multiple activities of ni... more Recent studies on the mode of action have revealed exciting features of multiple activities of nisin and related lantibiotics making these peptides interesting model systems for the design of new antibiotics (Molec. Microbiol. 30 (1998) 317; Science 286 (1999) 2361; J. Biol. Chem. 276 (2001) 1772.). In contrast to other groups of antibiotic peptides, the lantibiotics display a substantial degree of specificity for particular components of bacterial membranes. Mersacidin and actagardine were shown to bind with high affinity to the lipid coupled peptidoglycan precursor, the so-called lipid II, which prevents the polymerisation of the cell wall monomers into a functional murein sacculus. The lantibiotics nisin and epidermin also bind tightly to this cell wall precursor; however, for these lantibiotics the binding of lipid II has two consequences. Like with mersacidin blocking of lipid II inhibits peptidoglycan biosynthesis; in addition, lipid II is used as a specific docking molecule for the formation of pores. This combination of lethal effects explains the potency of these peptides, which are active in nanomolar concentration. Other type-A lantibiotics are believed to also use docking molecules for pore formation, although identification of such membrane components has not yet been achieved.
Lantibiotics are antibiotic peptides distinguished by the presence of the rare thioether amino ac... more Lantibiotics are antibiotic peptides distinguished by the presence of the rare thioether amino acids lanthionine and/or methyllanthionine. They are produced by Gram-positive bacteria as gene-encoded precursor peptides and undergo post-translational modification to generate the mature peptide. The structural gene for the prepeptide and the genes involved in biosynthesis, processing, export as well as regulation and producer strain self-protection are organized in clusters. Based on their structural and functional features lantibiotics are currently divided into two major groups. The flexible amphiphilic type-A lantibiotics act primarily by pore formation in the bacterial membrane, a mechanism which was recently shown, e.g. for nisin and epidermin, to involve the interaction with specific docking molecules such as the membrane precursor lipid II. The rather rigid and globular type-B lantibiotics inhibit enzyme functions through interaction with the respective substrates: mersacidin and actagardine inhibit the cell wall biosynthesis by complexing lipid II, whereas the cinnamycin-like peptides inhibit phospholipases by binding phosphoethanolamine. Lantibiotics have attracted much attention in recent years and undergone extensive characterization. New insights into the mode of action and structure-function relationships as well as the biochemistry and the genetics will be outlined in this review.
A template based on positional residue frequencies in the N-terminal stretch of natural alpha-hel... more A template based on positional residue frequencies in the N-terminal stretch of natural alpha-helical antimicrobial peptides was used to prepare sequence patterns and to scan the Swiss-Prot Database, using the ScanProsite tool. This search identified a segment in pilosulin 1, a cytotoxic peptide from the venom of the jumper ant Myrmecia pilosula, as a potential novel antimicrobial peptide sequence. This segment, corresponding to the 20 N-terminal residues, was synthesized and its structural properties and biological activities were investigated. It showed a potent and broad spectrum antimicrobial activity including standard and multi-drug resistant gram-positive and gram-negative bacteria and Candida albicans, confirming the validity of the search method. A rational redesign approach resulting in four amino acid substitutions yielded a variant with improved antibacterial and significantly reduced hemolytic activity.
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