Synthesis and activity of 5'-uridinyl dipeptide analogues mimicking the amino terminal peptide chain of nucleoside antibiotic mureidomycin A.

A series of 5'-uridinyl dipeptides were synthesised which mimic the amino terminal chain of nucleoside antibiotic mureido omycin A. Aminoacyl-beta-alanyl- and aminoacyl-N-methyl-beta-alanyl- dipeptides were attached either via an ester linkage to the 5'-hydroxyl of uridine, or via an amide linkage to 5'-amino-5'-deoxyuridine. The most active inhibitor of Escherichia coli phospho-MurNAc-pentapeptide translocase (MraY) was 5'-O-(L-Ala-N-methyl-beta-alanyl)-uridine (13l), which also showed 97% enzyme inhibition at 2.35 mM concentration, and showed antibacterial activity at 100 microg/mL concentration against Pseudomonas putida. Both the central N-methyl amide linkage and a 5' uridine ester linkage were required for highest biological activity. Enzyme inhibition was shown to be competitive with Mg(2+). It is proposed that the primary amino terminus of the inhibitor binds in place of the Mg(2+) cofactor at the MraY active site, positioned via a cis-N-methyl amide linkage.