Antibiotics with new mechanisms of action are urgently required to combat the growing health threat posed by resistant pathogenic microorganisms. We synthesized a family of peptidomimetic antibiotics, based on the antimicrobial peptide protegrin I. Several rounds of optimization gave a lead compound that was active in the nanomolar range against gram-negative Pseudomonas sp., but was largely inactive against other Gram-negative and Gram-positive bacteria. Biochemical and genetic studies showed the peptidomimetics had a non-membrane-lytic mechanism of action and identified a homologue of the ß-barrel protein LptD (Imp/OstA), which functions in outer membrane biogenesis, as a cellular target. The peptidomimetic showed potent antimicrobial activity in a mouse septicemia infection model. Drug-resistant strains of Pseudomonas are a serious health problem, so this family of antibiotics may have important therapeutic applications. A synthesized antibiotic targets a protein involved in outer membrane biogenesis to selectively kill Pseudomonas pathogens.
1
Peptidomimetic Antibiotics Target Outer Membrane Biogenesis in
Pseudomonas aeruginosa
AbstractAntibiotics with new mechanisms of action are urgently required to combat the growing health
In Fig. 1 of this Article, the label for residue 24 in peptide 4 should have been 'Thr' instead of 'Dab', and in peptide 5, the labels for the 'N' and 'C' termini should have been reversed (with the C terminus next to Dab, and the N terminus next to Trp). This figure has been corrected online.
Novel, highly potent CXCR4 inhibitors with good pharmacokinetic properties were obtained by applying PEM technology starting from the naturally occurring ?-hairpin peptide polyphemusin II. The design involved incorporation of key residues from polyphemusin II into a macrocyclic
template-bound ?-hairpin mimetic. Using a parallel synthesis approach, the potency and ADME properties of the mimetics were optimized, resulting in CXCR4 inhibitors such as POL2438 and POL3026. Their activities were confirmed in a series of in vitro HIV-1 infection assays. Besides
high selectivity for CXCR4, POL3026 had excellent plasma stability and favorable pharmacokinetic properties in dogs. In a murine model POL3026 was highly efficacious in hematopoietic stem cell mobilization. Hence, PEM-based CXCR4 inhibitors have the potential to become therapeutic agents for
the treatment of HIV infections (as entry inhibitor), cancer (e.g. for inhibition of metastasis), stem cell transplant and inflammation.
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