Development of a natural product optimization strategy for inhibitors against MraY, a promising antibacterial target.
Kazuki YamamotoToyotaka SatoAili HaoKenta AsaoRintaro KaguchiShintaro KusakaRadhakrishnam Raju RuddarrajuDaichi KazamoriKiki SeoSatoshi TakahashiMotohiro HoriuchiShin-Ichi YokotaSeok-Yong LeeSatoshi IchikawaPublished in: Nature communications (2024)
MraY (phospho-N-acetylmuramoyl-pentapeptide-transferase) inhibitory natural products are attractive molecules as candidates for a new class of antibacterial agents to combat antimicrobial-resistant bacteria. Structural optimization of these natural products is required to improve their drug-like properties for therapeutic use. However, chemical modifications of these natural products are painstaking tasks due to complex synthetic processes, which is a bottleneck in advancing natural products to the clinic. Here, we develop a strategy for a comprehensive in situ evaluation of the build-up library, which enables us to streamline the preparation of the analogue library and directly assess its biological activities. We apply this approach to a series of MraY inhibitory natural products. Through construction and evaluation of the 686-compound library, we identify promising analogues that exhibit potent and broad-spectrum antibacterial activity against highly drug-resistant strains in vitro as well as in vivo in an acute thigh infection model. Structures of the MraY-analogue complexes reveal distinct interaction patterns, suggesting that these analogues represent MraY inhibitors with unique binding modes. We further demonstrate the generality of our strategy by applying it to tubulin-binding natural products to modulate their tubulin polymerization activities.
Keyphrases
- drug resistant
- multidrug resistant
- silver nanoparticles
- acinetobacter baumannii
- molecular docking
- escherichia coli
- primary care
- liver failure
- dna binding
- drug induced
- working memory
- single cell
- cystic fibrosis
- gene expression
- wound healing
- molecularly imprinted
- essential oil
- mass spectrometry
- electronic health record
- mechanical ventilation