Aditi Taunk scite author profile

Antimicrobial peptides (AMPs) and their synthetic mimics have received recent interest as new alternatives to traditional antibiotics in attempts to overcome the rise of antibiotic resistance in many microbes. AMPs are part of the natural defenses of most living organisms and they also have a unique mechanism of action against bacteria. Herein, a new series of short amphiphilic cationic peptidomimetics were synthesized by incorporating the 3'-amino-[1,1'-biphenyl]-3-carboxylic acid backbone to mimic the essential properties of natural AMPs. By altering hydrophobicity and charge, we identified the most potent analogue 25g that was active against both Gram-positive Staphylococcus aureus (MIC = 15.6 μM) and Gram-negative Escherichia coli (MIC = 7.8 μM) bacteria. Cytoplasmic permeability assay results revealed that 25g acts primarily by depolarization of lipids in cytoplasmic membranes. The active compounds were also investigated for their cytotoxicity to human cells, lysis of lipid bilayers using tethered bilayer lipid membranes (tBLMs) and their activity against established biofilms of S. aureus and E. coli.

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Design and Synthesis of Lactams Derived from Mucochloric and Mucobromic Acids as Pseudomonas aeruginosa Quorum Sensing Inhibitors

Almohaywi

Taunk

Wenholz

et al. 2018

Molecules

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Bacterial infections, particularly hospital-acquired infections caused by Pseudomonas aeruginosa, have become a global threat with a high mortality rate. Gram-negative bacteria including P. aeruginosa employ N-acyl homoserine lactones (AHLs) as chemical signals to regulate the expression of pathogenic phenotypes through a mechanism called quorum sensing (QS). Recently, strategies targeting bacterial behaviour or QS have received great attention due to their ability to disarm rather than kill pathogenic bacteria, which lowers the evolutionary burden on bacteria and the risk of resistance development. In the present study, we report the design and synthesis of N-alkyl- and N-aryl 3,4 dichloro- and 3,4-dibromopyrrole-2-one derivatives through the reductive amination of mucochloric and mucobromic acid with aliphatic and aromatic amines. The quorum sensing inhibition (QSI) activity of the synthesized compounds was determined against a P. aeruginosa MH602 reporter strain. The phenolic compounds exhibited the best activity with 80% and 75% QSI at 250 µM and were comparable in activity to the positive control compound Fu-30. Computational docking studies performed using the LasR receptor protein of P. aeruginosa suggested the importance of hydrogen bonding and hydrophobic interactions for QSI.

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Dual-Action Biomaterial Surfaces with Quorum Sensing Inhibitor and Nitric Oxide To Reduce Bacterial Colonization

Taunk

Chen

Iskander

et al. 2018

ACS Biomater. Sci. Eng.

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Bacterial biofilms on implanted medical devices are a serious problem. At present, no effective strategies are available and the emergence of multidrug resistance has highlighted the need to develop novel antibacterial coatings to combat device-related infections. One approach is to interfere with the bacterial communication pathway or quorum sensing (QS), which is responsible for biofilm formation and virulence factors, by incorporating QS inhibitors (QSIs) such as dihydropyrrolones (DHPs) on biomaterial surfaces. The endogenous biological signaling molecule nitric oxide (NO) is also a potential candidate for prevention of biomedical infections due to its antibiofilm activity. In this study, we have developed dual-action surface coatings based on DHPs and NO. X-ray photoelectron spectroscopy (XPS) and contact angle measurements confirmed successful immobilization of DHPs and NO, and the Griess assay revealed NO release from the coatings at 24 h. Bacterial colonization on the surfaces was assessed by confocal laser scanning microscopy (CLSM), where the DHP+NO surfaces demonstrated significantly higher efficacy in reducing colonization of Staphylococcus aureus and Pseudomonas aeruginosa via a nonbactericidal mechanism than the DHP or NO-releasing coatings alone. The excellent antibacterial activity of the novel coatings suggests the combination of DHP and NO has great potential to combat device-related bacterial infections.

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Surface Immobilization of Antibacterial Quorum Sensing Inhibitors by Photochemical Activation

Taunk¹,

Ho²,

Iskander³

et al. 2016

J Biotechnol Biomater

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The Role of Orientation of Surface Bound Dihydropyrrol-2-ones (DHP) on Biological Activity

et al. 2019

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Quorum sensing (QS) signaling system is important for bacterial growth, adhesion, and biofilm formation resulting in numerous infectious diseases. Dihydropyrrol-2-ones (DHPs) represent a novel class of antimicrobial agents that inhibit QS, and are less prone to develop bacterial resistance due to their non-growth inhibition mechanism of action which does not cause survival pressure on bacteria. DHPs can prevent bacterial colonization and quorum sensing when covalently bound to substrates. In this study, the role of orientation of DHP compounds was investigated after covalent attachment by 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide (EDC)/N-hydroxysuccinimide (NHS) coupling reaction to amine-functionalized glass surfaces via various positions of the DHP scaffold. The functionalized glass surfaces were characterized by X-ray photoelectron spectroscopy (XPS) and contact angle measurements and tested for their in vitro biological activity against S. aureus and P. aeruginosa. DHPs attached via the N-1 position resulted in the highest antibacterial activities against S. aureus, while no difference was observed for DHPs attached either via the N-1 position or the C-4 phenyl ring against P. aeruginosa.

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Aditi Taunk

Design and synthesis of short amphiphilic cationic peptidomimetics based on biphenyl backbone as antibacterial agents

Design and Synthesis of Lactams Derived from Mucochloric and Mucobromic Acids as Pseudomonas aeruginosa Quorum Sensing Inhibitors

Dual-Action Biomaterial Surfaces with Quorum Sensing Inhibitor and Nitric Oxide To Reduce Bacterial Colonization

Surface Immobilization of Antibacterial Quorum Sensing Inhibitors by Photochemical Activation

The Role of Orientation of Surface Bound Dihydropyrrol-2-ones (DHP) on Biological Activity

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