Molecular Basis of Gut Microbiome-Associated Colorectal Cancer: A Synthetic Perspective

A significant challenge toward studies of the human microbiota involves establishing causal links between bacterial metabolites and human health and disease states. Certain strains of commensal Escherichia coli harbor the 54-kb clb gene cluster which codes for small molecules named pre­coli­bactins...

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Veröffentlicht in:Journal of the American Chemical Society 2017-10, Vol.139 (42), p.14817-14824
Hauptverfasser: Healy, Alan R, Herzon, Seth B
Format: Artikel
Sprache:eng
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Zusammenfassung:A significant challenge toward studies of the human microbiota involves establishing causal links between bacterial metabolites and human health and disease states. Certain strains of commensal Escherichia coli harbor the 54-kb clb gene cluster which codes for small molecules named pre­coli­bactins and coli­bactins. Several studies suggest coli­bactins are genotoxins and support a role for clb metabolites in colorectal cancer formation. Significant advances toward elucidating the structures and biosynthesis of the pre­coli­bactins and coli­bactins have been made using genetic approaches, but their full structures remain unknown. In this Perspective we describe recent synthetic efforts that have leveraged biosynthetic advances and shed light on the mechanism of action of clb metabolites. These studies indicate that deletion of the coli­bactin peptidase ClbP, a modification introduced to promote accumulation of pre­coli­bactins, leads to the production of non-genotoxic pyridone-based isolates derived from the diversion of linear biosynthetic intermediates toward alternative cyclization pathways. Furthermore, these studies suggest the active genotoxins (coli­bactins) are unsaturated imines that are potent DNA damaging agents, thereby confirming an earlier mechanism of action hypothesis. Although these imines have very recently been detected in bacterial extracts, they have to date confounded isolation. As the power of “meta-omics” approaches to natural products discovery further advance, we anticipate that chemical synthetic and biosynthetic studies will become increasingly interdependent.
ISSN:0002-7863
1520-5126
1520-5126
DOI:10.1021/jacs.7b07807