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Abstract
The rapid emergence and spread of multi-resistant bacteria have created an urgent need for new antimicrobial agents. We report here a series of amphipathic α,α-disubstituted β-amino amide derivatives with activity against 30 multi-resistant clinical isolates of Gram-positive and Gram-negative bacteria, including isolates with extended spectrum β-lactamase – carbapenemase (ESBL-CARBA) production. A variety of halogenated aromatic side-chains were investigated to improve antimicrobial potency and minimize formation of Phase I metabolites. Net positive charge and cationic character of the derivatives had an important effect on toxicity against human cell lines. The most potent and selective derivative was the diguanidine derivative 4e with 3,5-di-brominated benzylic side-chains. Derivative 4e displayed minimum inhibitory concentrations (MIC) of 0.25–8 μg/mL against Gram-positive and Gram-negative reference strains, and 2–32 μg/mL against multi-resistant clinical isolates. Derivative 4e showed also low toxicity against human red blood cells (EC50 > 200 μg/mL), human hepatocyte carcinoma cells (HepG2: EC50 > 64 μg/mL), and human lung fibroblast cells (MRC-5: EC50 > 64 μg/mL). The broad-spectrum antimicrobial activity and low toxicity of diguanylated derivatives such as 4e make them attractive as lead compounds for development of novel antimicrobial drugs.
Highlights
Modern society is facing the reality of a post-antibiotic era due to the rapid emergence and spread of multi-resistant bacteria and the lack of new antibiotics
We have previously reported antimicrobial a,a-disubstituted bamino amides, which were designed based on the pharmacophore model for short cationic AMPs suggesting that amphipathic peptidomimetics should contain two cationic charged groups and two lipophilic bulky groups as important key features [10,16]
Synthesis of the monoamine derivatives 1aei and the diamine derivatives 2aej were carried out according to our optimized reported method (Scheme 1) [32]
Summary
Modern society is facing the reality of a post-antibiotic era due to the rapid emergence and spread of multi-resistant bacteria and the lack of new antibiotics. Other initiatives have been launched to tackle the scientific, regulatory, and business challenges that hamper the development of new antibiotics [5]. AMPs are usually positively charged (þ2 to þ9), amphipathic, consist of 12e50 amino acid residues, and interact with bacteria first by electrostatic interactions followed by disruption of bacterial membrane structures [13]. The selectivity of cationic AMPs for bacterial membranes is due to their higher content of negatively charged cell wall components like teichoic acids, cardiolipin, and phosphatidylglycerol, whereas mammalian cell membranes consist of neutrally charged phospholipids and are stabilized by cholesterol [12,14,15]
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