Solid-phase synthesis and biological evaluation of des-hydroxy pseudouridimycin analogs

Pseudouridimycin (PUM) is a C-nucleoside/peptide Antibiotic that selectively inhibits Bacterial RNA polymerase (RNAP) and exhibits potent activity against drug-resistant pathogens. However, PUM suffers from chemical instability due to self-immolative cleavage of its central hydroxamate bond. Here, we employed cryo-electron microscopy to determine structures of PUM (1) and a chemically stabilized des-hydroxy analog of PUM (2a) bound to an Escherichia coli RNAP transcription complex. Guided by the observed bound conformation, we developed an efficient solid-phase synthesis of 50 des-hydroxy PUM analogs modified at the Gln residue and Gdn-Gly tail. Several analogs retained low-micromolar RNAP-inhibitory activity, with a para-substituted phenyl amidine analog (54) emerging as the most potent inhibitor (IC₅₀ = 0.95 μM). These results establish a versatile synthetic platform and structural framework for optimizing stabilized PUM derivatives and provide a foundation for the development of RNAP-targeted therapeutics against resistant Bacterial pathogens.

RNA polymerase; antibiotics; nucleosides; peptidomimetics.