Inhibitors Of Bacterial Protein Synthesis - A New Class Of Antibiotics
Funder
National Health and Medical Research Council
Funding Amount
$120,000.00
Summary
Pioneering work by CSIRO scientists has identified specific peptide motifs in the DNA replication machinery of bacteria that are critical for the correct functioning of the organism. In collaboration with CI Alewood potent (Kd ~ nM) lead compounds that inhibit bacterial DNA replication have been designed and synthesised. Through the application of a number of novel bioinformatics approaches to the analysis of the complete genome sequences of bacteria, the key sites of interaction of a number of ....Pioneering work by CSIRO scientists has identified specific peptide motifs in the DNA replication machinery of bacteria that are critical for the correct functioning of the organism. In collaboration with CI Alewood potent (Kd ~ nM) lead compounds that inhibit bacterial DNA replication have been designed and synthesised. Through the application of a number of novel bioinformatics approaches to the analysis of the complete genome sequences of bacteria, the key sites of interaction of a number of protein families (DNA synthesis and repair enzymes) with the beta subunit of bacterial DNA Polymerase III have been identified. The nature of the sites, and preliminary experimental data, suggests that the approach will be generally applicable to all species of bacteria. In addition a wide range of novel assays for the identification of inhibitors of the interaction of proteins with the beta subunit have been developed. In this proposal we wish to demonstrate that our in vitro nanomolar inhibitors of the beta subunit can inhibit bacterial cell growth. The development program proposes to develop methods and strategies to gain bacterial cell entry of inhibitors of the interaction of proteins with the beta subunit of bacterial DNA Polymerase III. Proof of concept will be demonstrated by inhibition of bacterial cell growth. Stable compounds with good binding characteristics and able to be taken up by cells will be developed based on structure-function assay results, structural studies and modelling of inhibitors bound to the target. Antimicrobial activity of compounds will be demonstrated in standard FDA approved NCLLS (National Centre of Clinical Laboratory Standards USA) tests. Spectrum of activity will be demonstrated by testing compounds against bacterial species representative of the range of pathogenic organisms in standard FDA assays.Read moreRead less