AI Article Synopsis
- Colibactin, a compound linked to colorectal cancer, is produced by gut bacteria and is activated from a non-toxic precursor when exported to the periplasm of the bacteria.
- The activation process involves the enzyme ClbP, which has specific regions that play a role in both enzyme stability and substrate binding.
- Structural studies suggest that ClbP dimerizes to effectively bind and activate the precursor colibactin, allowing for coordinated action on its harmful components.
Article Abstract
Colibactin, a DNA cross-linking agent produced by gut bacteria, is implicated in colorectal cancer. Its biosynthesis uses a prodrug resistance mechanism: a non-toxic precursor assembled in the cytoplasm is activated after export to the periplasm. This activation is mediated by ClbP, an inner-membrane peptidase with an N-terminal periplasmic catalytic domain and a C-terminal three-helix transmembrane domain. Although the transmembrane domain is required for colibactin activation, its role in catalysis is unclear. Our structure of full-length ClbP bound to a product analog reveals an interdomain interface important for substrate binding and enzyme stability and interactions that explain the selectivity of ClbP for the N-acyl-D-asparagine prodrug motif. Based on structural and biochemical evidence, we propose that ClbP dimerizes to form an extended substrate-binding site that can accommodate a pseudodimeric precolibactin with its two terminal prodrug motifs in the two ClbP active sites, thus enabling the coordinated activation of both electrophilic warheads.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9889268 | PMC |
| http://dx.doi.org/10.1038/s41589-022-01142-z | DOI Listing |
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