Dynamic self-assembling supramolecular dendrimer nanosystems as potent antibacterial candidates against drug-resistant bacteria and biofilms

The alarming and prevailing antibiotic resistance crisis urgently calls for innovative "outside of the box" antibacterial agents, which can differ substantially from conventional antibiotics. In this context, we have established antibacterial candidates based on dynamic supramolecular dend...

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Veröffentlicht in:	Nanoscale 2022-07, Vol.14 (26), p.9286-9296
Hauptverfasser:	Dhumal, Dinesh, Maron, Bar, Malach, Einav, Lyu, Zhenbin, Ding, Ling, Marson, Domenico, Laurini, Erik, Tintaru, Aura, Ralahy, Brigino, Giorgio, Suzanne, Pricl, Sabrina, Hayouka, Zvi, Peng, Ling
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Sprache:	eng
Schlagworte:	Antibiotics Bacteria Bioengineering Biofilms Biomaterials Biotechnology Computer terminals Dendrimers Drug resistance Human health and pathology Hydrophobicity Infectious diseases Life Sciences Membranes Multidisciplinary research Self-assembly
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creator	Dhumal, Dinesh Maron, Bar Malach, Einav Lyu, Zhenbin Ding, Ling Marson, Domenico Laurini, Erik Tintaru, Aura Ralahy, Brigino Giorgio, Suzanne Pricl, Sabrina Hayouka, Zvi Peng, Ling
description	The alarming and prevailing antibiotic resistance crisis urgently calls for innovative "outside of the box" antibacterial agents, which can differ substantially from conventional antibiotics. In this context, we have established antibacterial candidates based on dynamic supramolecular dendrimer nanosystems self-assembled with amphiphilic dendrimers composed of a long hydrophobic alkyl chain and a small hydrophilic poly(amidoamine) dendron bearing distinct terminal functionalities. Remarkably, the amphiphilic dendrimer with amine terminals exhibited strong antibacterial activity against both Gram-positive and Gram-negative as well as drug-resistant bacteria, and prevented biofilm formation. Multidisciplinary studies combining experimental approaches and computer modelling together demonstrate that the dendrimer interacts and binds via electrostatic interactions with the bacterial membrane, where it becomes enriched and then dynamically self-assembles into supramolecular nanoassemblies for stronger and multivalent interactions. These, in turn, rapidly promote the insertion of the hydrophobic dendrimer tail into the bacterial membrane thereby inducing bacterial cell lysis and constituting powerful antibacterial activity. Our study presents a novel concept for creating nanotechnology-based antibacterial candidates via dynamic self-assembly and offers a new perspective for combatting recalcitrant bacterial infection. The alarming and prevailing antibiotic resistance crisis urgently calls for innovative "outside of the box" antibacterial agents, which can differ substantially from conventional antibiotics.
doi_str_mv	10.1039/d2nr02305a
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source	Royal Society Of Chemistry Journals 2008-
subjects	Antibiotics Bacteria Bioengineering Biofilms Biomaterials Biotechnology Computer terminals Dendrimers Drug resistance Human health and pathology Hydrophobicity Infectious diseases Life Sciences Membranes Multidisciplinary research Self-assembly
title	Dynamic self-assembling supramolecular dendrimer nanosystems as potent antibacterial candidates against drug-resistant bacteria and biofilms
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