The emergence of multi-drug resistant pathogenic bacteria represents a serious and growing threat to human lives and national healthcare systems. These 'supebugs'now kill 100,000's of people each year and are estimated to add $20bn in healthcare costs in the US. In particular, the expansion of Gram-negative strains such as Klebsiella pneumonia, Escherichia coli, Acinetobacter baumannii and Pseudomonas aeruginosa and the rapidly spreading NDM-1 phenotypes are of grave concern. For many of these Gram-negative infections, colistin (polymyxin E) remains the only option of 'last resort', where the carbapenems are no longer active, and cases of tigecycline resistance have been reported.
Aims &Objectives:
We aim to produce new antibiotics, based on colistin, that are active against resistant 'super-bugs'and that have better safety profiles than current 'last-resor'antibiotics. The research will deliver novel drug-candidates targeted at resistant pathogenic bacteria, and will also provide a detailed scientific understanding of the origins and mechanisms of antibiotic-induced kidney toxicity (nephrotoxicity).We will develop a detailed understanding of how colistin works to kill bacteria. In the longer term, the assays developed for profiling of nephrotoxicity will prove valuable in all areas of drug research, thus providing tools for both antibiotic-renal and more general drug-renal toxicity screening. The new colistin derivatives will be active against the serious Gram-negative super superbugs and attack both drug-sensitive and drug-resistant strains of the bacteria. Approach &methods: This program will use a world first synthetic method for the rapid synthesis of 1,400 colistin analogs for an unprecedented systematic investigation of structure-activity and structure- toxicity relationships. These novel compounds will be optimized for activity against drug-resistant Gram-negative bacteria, in particular NDM-1 strains, and then evaluated for mode of action, stability, cell toxicity and nephrotoxicity. They will also be profiled for binding to the bacterial membranes and molecular target (Lipid A). This will lead to in vivo proof-of-principle for drug action and pharmacokinetic studies for the selection of compounds for future pre-clinical evaluation.
Drug resistant bacteria, in particular the recently emergent NDM-1 strains, pose a serious and growing threat to human health in the USA and elsewhere. NDM-1 strains of carbapenem-resistant Gram-negative bacteria possess resistance mechanisms such that almost all antibiotics no longer protect patients from serious, life-threatening infection. We will modify one of the only two antibiotics (colistin) that remains activ against NDM-1 bacteria to reduce the drug's toxic effect on humans (kidney toxicity), and to increase its activity against the dangerous and rapidly spreading NDM-1 superbugs.
| Blaskovich, Mark A T; Pitt, Miranda E; Elliott, Alysha G et al. (2018) Can octapeptin antibiotics combat extensively drug-resistant (XDR) bacteria? Expert Rev Anti Infect Ther 16:485-499 |
| Becker, Bernd; Butler, Mark S; Hansford, Karl A et al. (2017) Synthesis of octapeptin C4 and biological profiling against NDM-1 and polymyxin-resistant bacteria. Bioorg Med Chem Lett 27:2407-2409 |
| Gallardo-Godoy, Alejandra; Muldoon, Craig; Becker, Bernd et al. (2016) Activity and Predicted Nephrotoxicity of Synthetic Antibiotics Based on Polymyxin B. J Med Chem 59:1068-77 |
| Huang, Johnny X; Kaeslin, Geraldine; Ranall, Max V et al. (2015) Evaluation of biomarkers for in vitro prediction of drug-induced nephrotoxicity: comparison of HK-2, immortalized human proximal tubule epithelial, and primary cultures of human proximal tubular cells. Pharmacol Res Perspect 3:e00148 |
| Huang, Johnny X; Blaskovich, Mark A T; Pelingon, Ruby et al. (2015) Mucin Binding Reduces Colistin Antimicrobial Activity. Antimicrob Agents Chemother 59:5925-31 |
| Lindahl, Fredrik; Hoang, Huy N; Fairlie, David P et al. (2015) Facile synthesis of mono- and bis-methylated Fmoc-Dap, -Dab and -Orn amino acids. Chem Commun (Camb) 51:4496-8 |
| Huang, Johnny X; Blaskovich, Mark A; Cooper, Matthew A (2014) Cell- and biomarker-based assays for predicting nephrotoxicity. Expert Opin Drug Metab Toxicol 10:1621-35 |
