2019
DOI: 10.1021/acs.biomac.9b00939
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Bacterial Membrane Selective Antimicrobial Peptide-Mimetic Polyurethanes: Structure–Property Correlations and Mechanisms of Action

Abstract: The rise in prevalence of antibiotic resistant strains of bacteria is a very significant challenge for treating life-threatening infections worldwide. A source of novel therapeutics that has shown great promise is a class of biomolecules known as antimicrobial peptides. Previously, within our laboratories, we developed a new family of water-soluble antimicrobial polyurethanes that mimic antimicrobial peptides. Within this current investigation, studies were carried out to gain a greater understanding of the st… Show more

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Cited by 38 publications
(40 citation statements)
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“…Their mechanism of action has been widely studied. AMPs can lead to bacterial cell death through both membranolytic [33][34][35] and non-membranolytic mechanisms, interacting with intracellular targets, such as DNA, RNA, and proteins [36][37][38][39]. Both Gram-negative and Gram-positive bacteria have molecules on the outer membrane that confer a negative net charge, allowing the electrostatic interaction with cationic peptides [24].…”
Section: Antibacterial Peptidesmentioning
confidence: 99%
“…Their mechanism of action has been widely studied. AMPs can lead to bacterial cell death through both membranolytic [33][34][35] and non-membranolytic mechanisms, interacting with intracellular targets, such as DNA, RNA, and proteins [36][37][38][39]. Both Gram-negative and Gram-positive bacteria have molecules on the outer membrane that confer a negative net charge, allowing the electrostatic interaction with cationic peptides [24].…”
Section: Antibacterial Peptidesmentioning
confidence: 99%
“…The polyurethanes were synthesized using a simple, one-pot step-growth polymerization of N-functionalized diethanolamide monomers with hexamethylene diisocyanate using methods previously optimized in our lab, and detailed in the experimental section (Figure 1). [43][44] The monomers were synthesized as reported previously and were designed to be structural mimics of lysine (mLys), alanine (mAla), and phenylalanine (mPhe). 44,48 To mimic arginine (mArg), the mLys units were guanylated after the polymerization using 1H-Pyrazole-1-carboxamidine hydrochloride in the presence of triethylamine in DMF.…”
Section: Polyurethane Design and Synthesismentioning
confidence: 99%
“…Table 1 shows that the molar masses (Mn)of the polyurethanes range between 9-10 kg/mol. Since the molar mass and hydrophobicity of the polymer directly influence its toxicity towards mammalian cells, [43][44] we minimized the cytotoxicity of the designed polymers by synthesizing polymers with lower molecular weights to compensate for the addition of hydrophobic pendant groups. We first tested the ability of these polymers to prevent biofilm formation on abiotic surfaces against three common, biofilm-forming opportunistic bacterial pathogens, viz., P. aeruginosa, S. aureus, and E. coli, in BM2 minimal medium supplemented with 0.4% glucose and 0.5% casamino acids (which supports biofilm formation of all three species studied).…”
Section: Polyurethane Design and Synthesismentioning
confidence: 99%
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