Synthetic small molecular antimicrobial peptidomimetics represent a promising new class of potential antibiotics due to their membrane-disrupting ability and their decreased propensity for bacterial resistance. A library of 43 mono-and di-cationic biaryl 1,2,3-triazolyl peptidomimetics was designed and synthesized based upon previously established lead biarylpeptidomimetics and a known pharmacophore. A reliable, facile and modular synthetic pathway allowed for the efficient synthesis of multiple unique scaffolds which were subjected to divergent derivatization to furnish the amphiphilic compounds. In vitro testing revealed enhanced antibacterial efficacy against a range of pathogenic bacteria, including bacterial isolates with methicillin, vancomycin, daptomycin, or multi-drug resistance. Preliminary time-kill kinetics and membranedisruption assays revealed a likely membrane-active mechanism for the tested peptidomimetics. An optimal balance between hydrophobicity and cationic charge was found to be essential for reduced cytotoxicity/ haemolysis (i.e. membrane selectivity) and enhanced Gram-negative activity. The cationic biaryl amphiphile 81 was identified as a potent, broad-spectrum peptidomimetic with activity against Gram-positive (methicillin-resistant Staphylococcus aureus-MIC = 2 μg/mL) and Gram-negative (Escherichia coli-MIC = 4 μg/mL) pathogenic bacteria.
Thirty two new binaphthyl-based, functionalized oxazole and thiazole peptidomimetics and over thirty five novel leucine-containing intermediate oxazoles and thiazoles were prepared in this study. This includes the first examples of the direct C-5 arylation of an amino acid dipeptide-derived oxazole. Moderate to excellent antibacterial activity was observed for all new compounds across Gram positive isolates with MICs ranging from 1-16 μg mL(-1). Results for Gram negative E. coli and A. baumannii were more variable, but MICs as low as 4 μg mL(-1) were returned for two examples. Significantly, the in vitro results with a fluoromethyl-oxazole derivative collectively represent the best obtained to date for a member of our binaphthyl peptide antimicrobials.
A two-step
Pd-catalyzed (3 + 2) cycloaddition/HNO2 elimination
reaction sequence has been developed to give novel cyclic 1,3-dien-5-yne
systems from Pd-stabilized zwitterionic 1,3-dipoles and 2-nitro-1,3-enyne
substrates. The process is highly atom-efficient and tolerates the
reaction of 2-vinyloxirane, 1-tosyl-2-vinylaziridine, and diethyl
2-vinylcyclopropane-1,1-dicarboxylate derived 1,3-dipoles with a variety
of 2-nitro-1,3-enyne substrates. The stereochemistry of the intermediate
(3 + 2) cycloadducts was determined by single crystal X-ray analysis.
Furthermore, a selective kinetic elimination of the cycloadduct with
an antiperiplanar relationship between the NO2 group and
the participating hydrogen was demonstrated, allowing for efficient
isolation of a single diastereoisomer of the cycloadduct.
Small-molecule
antimicrobial peptidomimetic amphiphiles represent
a promising class of novel antimicrobials with the potential for widespread
therapeutic application. To investigate the role of spatial positioning
for key hydrophobic and hydrophilic groups on the antimicrobial efficacy
and selectivity, positional isomers of the lead biphenyl antimicrobial
peptidomimetic compound 1 were synthesized and subjected
to microbial growth inhibition and mammalian toxicity assays. Positional
isomer 4 exhibited 4–8× increased efficacy
against the pathogenic Gram-negative bacteria Pseudomonas
aeruginosa and Escherichia coli (MIC = 2
μg/mL), while isomers 2, 3, and 7 exhibited a 4× increase in activity against Acinetobacter baumannii (MIC = 4 μg/mL). Changes in
molecular shape had a significant impact on Gram-negative antibacterial
efficacy and the resultant spectrum of activity, whereas all structural
isomers exhibited significant efficacy (MIC = 0.25–8 μg/mL)
against Gram-positive bacterial pathogens (e.g., methicillin-resistant Staphylococcus aureus, Streptococcus pneumoniae, and Enterococcus faecalis).
The deprotection of chiral 1,2-bis(tosylamides) to their corresponding 1,2-diamines is mostly unsuccessful under standard conditions. In a new methodology, the use of Mg/MeOH with sufficient steric additions allows the facile synthesis of 1,2-diamines in 78−98% yields. These results are rationalized using density functional theory and the examination of inner and outer-sphere reduction mechanisms.Note pubs.acs.org/joc
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