Derivatisable Cyanobactin Analogues: A Semisynthetic Approach

Many natural cyclic peptides have potent and potentially useful biological activities. Their use as therapeutic starting points is often limited by the quantities available, the lack of known biological targets and the practical limits on diversification to fine‐tune their properties. We report the...

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Veröffentlicht in:	Chembiochem : a European journal of chemical biology 2015-12, Vol.16 (18), p.2646-2650
Hauptverfasser:	Oueis, Emilia, Adamson, Catherine, Mann, Greg, Ludewig, Hannes, Redpath, Philip, Migaud, Marie, Westwood, Nicholas J., Naismith, James H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alanine - analogs & derivatives Alanine - chemistry Amino Acid Sequence Carbocyanines - chemistry Click Chemistry Copper - chemistry cyclic peptides Cycloaddition Reaction enzymatic reactions Enzymes HeLa Cells Humans macrocyclisation Magnetic Resonance Spectroscopy Microscopy, Fluorescence patellamides Peptides Peptides, Cyclic - chemistry Peptides, Cyclic - metabolism
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container_title	Chembiochem : a European journal of chemical biology
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creator	Oueis, Emilia Adamson, Catherine Mann, Greg Ludewig, Hannes Redpath, Philip Migaud, Marie Westwood, Nicholas J. Naismith, James H.
description	Many natural cyclic peptides have potent and potentially useful biological activities. Their use as therapeutic starting points is often limited by the quantities available, the lack of known biological targets and the practical limits on diversification to fine‐tune their properties. We report the use of enzymes from the cyanobactin family to heterocyclise and macrocyclise chemically synthesised substrates so as to allow larger‐scale syntheses and better control over derivatisation. We have made cyclic peptides containing orthogonal reactive groups, azide or dehydroalanine, that allow chemical diversification, including the use of fluorescent labels that can help in target identification. We show that the enzymes are compatible and efficient with such unnatural substrates. The combination of chemical synthesis and enzymatic transformation could help renew interest in investigating natural cyclic peptides with biological activity, as well as their unnatural analogues, as therapeutics. A combination of the chemical synthesis of peptides with enzymatic transformation allows the formation of patellamide‐like unnatural cyclic peptides. These analogues can contain derivatisable unnatural amino acids along with the natural thiazoline motifs. Their derivatisation through the reactive unnatural groups is orthogonal and has many applications.
doi_str_mv	10.1002/cbic.201500494
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Their use as therapeutic starting points is often limited by the quantities available, the lack of known biological targets and the practical limits on diversification to fine‐tune their properties. We report the use of enzymes from the cyanobactin family to heterocyclise and macrocyclise chemically synthesised substrates so as to allow larger‐scale syntheses and better control over derivatisation. We have made cyclic peptides containing orthogonal reactive groups, azide or dehydroalanine, that allow chemical diversification, including the use of fluorescent labels that can help in target identification. We show that the enzymes are compatible and efficient with such unnatural substrates. The combination of chemical synthesis and enzymatic transformation could help renew interest in investigating natural cyclic peptides with biological activity, as well as their unnatural analogues, as therapeutics. A combination of the chemical synthesis of peptides with enzymatic transformation allows the formation of patellamide‐like unnatural cyclic peptides. These analogues can contain derivatisable unnatural amino acids along with the natural thiazoline motifs. 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Their use as therapeutic starting points is often limited by the quantities available, the lack of known biological targets and the practical limits on diversification to fine‐tune their properties. We report the use of enzymes from the cyanobactin family to heterocyclise and macrocyclise chemically synthesised substrates so as to allow larger‐scale syntheses and better control over derivatisation. We have made cyclic peptides containing orthogonal reactive groups, azide or dehydroalanine, that allow chemical diversification, including the use of fluorescent labels that can help in target identification. We show that the enzymes are compatible and efficient with such unnatural substrates. The combination of chemical synthesis and enzymatic transformation could help renew interest in investigating natural cyclic peptides with biological activity, as well as their unnatural analogues, as therapeutics. 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subjects	Alanine - analogs & derivatives Alanine - chemistry Amino Acid Sequence Carbocyanines - chemistry Click Chemistry Copper - chemistry cyclic peptides Cycloaddition Reaction enzymatic reactions Enzymes HeLa Cells Humans macrocyclisation Magnetic Resonance Spectroscopy Microscopy, Fluorescence patellamides Peptides Peptides, Cyclic - chemistry Peptides, Cyclic - metabolism
title	Derivatisable Cyanobactin Analogues: A Semisynthetic Approach
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