MurD enzymes from different bacteria: evaluation of inhibitors.

D-Glutamic acid-adding enzyme (MurD ligase) catalyses the addition of D-glutamic acid to UDP-N-acetylmuramoyl-L-alanine, an essential cytoplasmic step in the pathway for bacterial cell-wall peptidoglycan synthesis. As such, it represents an important antibacterial drug-discovery target enzyme. Recently, several series of compounds have been synthesised and found to inhibit MurD from Escherichia coli, the best one having an IC(50) value of 8 μM.

New noncovalent inhibitors of penicillin-binding proteins from penicillin-resistant bacteria.

Background: Penicillin-binding proteins (PBPs) are well known and validated targets for antibacterial therapy. The most important clinically used inhibitors of PBPs β-lactams inhibit transpeptidase activity of PBPs by forming a covalent penicilloyl-enzyme complex that blocks the normal transpeptidation reaction; this finally results in bacterial death. In some resistant bacteria the resistance is acquired by active-site distortion of PBPs, which lowers their acylation efficiency for β-lactams.

NMR and molecular dynamics study of the binding mode of naphthalene-N-sulfonyl-D-glutamic acid derivatives: novel MurD ligase inhibitors.

The presented series of naphthalene-N-sulfonyl-D-glutamic acid derivatives are novel MurD ligase inhibitors with moderate affinity that occupy the D-Glu binding site. We performed an NMR study including transfer NOE to determine the ligand bound conformation, as well as saturation transfer difference experiments to obtain ligand epitope maps. The difference in overall appearance of the epitope maps highlights the importance of hydrophobic interactions and shows the segments of molecular structure that are responsible for them.

Novel naphthalene-N-sulfonyl-D-glutamic acid derivatives as inhibitors of MurD, a key peptidoglycan biosynthesis enzyme.

Mur ligases have essential roles in the biosynthesis of peptidoglycan, and they represent attractive targets for the design of novel antibacterials. MurD (UDP-N-acetylmuramoyl-L-alanine:D-glutamate ligase) is the second enzyme in the series of Mur ligases, and it catalyzes the addition of D-glutamic acid (D-Glu) to the cytoplasmic intermediate UDP-N-acetylmuramoyl-L-alanine (UMA). Because of the high binding affinity of D-Glu toward MurD, we synthesized and biochemically evaluated a series of N-substituted D-Glu derivatives as potential inhibitors of MurD from E.

Structural and functional characterization of enantiomeric glutamic acid derivatives as potential transition state analogue inhibitors of MurD ligase.

Mur ligases play an essential role in the intracellular biosynthesis of bacterial peptidoglycan, the main component of the bacterial cell wall, and represent attractive targets for the design of novel antibacterials. UDP-N-acetylmuramoyl-L-alanine:D-glutamate ligase (MurD) catalyses the addition of D-glutamic acid to the cytoplasmic intermediate UDP-N-acetylmuramoyl-L-alanine (UMA) and is the second in the series of Mur ligases. MurD ligase is highly stereospecific for its substrate, D-glutamic acid (D-Glu).