Stephen A. Cochrane scite author profile

The emergence of multidrug-resistant bacteria has placed a strain on health care systems and highlighted the need for new classes of antibiotics. Bacterial lipopeptides are secondary metabolites, generally produced by nonribosomal peptide synthetases that often exhibit broad-spectrum antimicrobial activity. Only two new structural types of antibiotics have entered the market in the last 40 years, linezolid and the bacterial lipopeptide daptomycin. A wide variety of bacteria produce lipopeptides, however Bacillus and Paenibacillus spp. in particular have yielded several potent antimicrobial lipopeptides. Many of the lipopeptides produced by these bacteria have been known for decades and represent a potential gold mine of antibiotic candidates. This list includes the polymyxins, octapeptins, polypeptins, iturins, surfactins, fengycins, fusaricidins, and tridecaptins, as well as some novel examples, including the kurstakins. These lipopeptides have a wide variety of activities, ranging from antibacterial and antifungal, to anticancer and antiviral. This review presents a reasonably comprehensive list of each class of lipopeptide and their known homologues. Emphasis has been placed on their antimicrobial activities, as well other potential applications for this interesting class of substances.

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Antimicrobial lipopeptide tridecaptin A₁selectively binds to Gram-negative lipid II

Cochrane

Findlay

Bakhtiary

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

109

122

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Tridecaptin A 1 (TriA 1 ) is a nonribosomal lipopeptide with selective antimicrobial activity against Gram-negative bacteria. Here we show that TriA 1 exerts its bactericidal effect by binding to the bacterial cellwall precursor lipid II on the inner membrane, disrupting the proton motive force. Biochemical and biophysical assays show that binding to the Gram-negative variant of lipid II is required for membrane disruption and that only the proton gradient is dispersed. The NMR solution structure of TriA 1 in dodecylphosphocholine micelles with lipid II has been determined, and molecular modeling was used to provide a structural model of the TriA 1 -lipid II complex. These results suggest that TriA 1 kills Gram-negative bacteria by a mechanism of action using a lipid-II-binding motif.antibiotic | peptide | lipid II | peptidoglycan | membrane pore

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Solid Supported Chemical Syntheses of Both Components of the Lantibiotic Lacticin 3147

et al. 2011

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Lantibiotics are antimicrobial peptides produced by bacteria. Some are employed for food preservation, whereas others have therapeutic potential due to their activity against organisms resistant to current antibiotics. They are ribosomally synthesized and posttranslationally modified by dehydration of serine and threonine residues followed by attack of thiols of cysteines to form monosulfide lanthionine and methyllanthionine rings, respectively. Chemical synthesis of peptide analogues is a powerful method to verify stereochemistry and access structure-activity relationships. However, solid supported synthesis of lantibiotics has been difficult due to problems in generating lanthionines and methyllanthionines with orthogonal protection and good stereochemical control. We report the solid-phase syntheses of both peptides of a two-component lantibiotic, lacticin 3147. Both successive and interlocking ring systems were synthesized on-resin, thereby providing a general methodology for this family of natural products.

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Structures of DPAGT1 Explain Glycosylation Disease Mechanisms and Advance TB Antibiotic Design

Dong

Wang

Pike

et al. 2018

Cell

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SummaryProtein N-glycosylation is a widespread post-translational modification. The first committed step in this process is catalysed by dolichyl-phosphate N-acetylglucosamine-phosphotransferase DPAGT1 (GPT/E.C. 2.7.8.15). Missense DPAGT1 variants cause congenital myasthenic syndrome and disorders of glycosylation. In addition, naturally-occurring bactericidal nucleoside analogues such as tunicamycin are toxic to eukaryotes due to DPAGT1 inhibition, preventing their clinical use. Our structures of DPAGT1 with the substrate UDP-GlcNAc and tunicamycin reveal substrate binding modes, suggest a mechanism of catalysis, provide an understanding of how mutations modulate activity (thus causing disease) and allow design of non-toxic “lipid-altered” tunicamycins. The structure-tuned activity of these analogues against several bacterial targets allowed the design of potent antibiotics for Mycobacterium tuberculosis, enabling treatment in vitro, in cellulo and in vivo, providing a promising new class of antimicrobial drug.

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