Molecular mechanism of action of imidazolium carbosilane dendrimers on the outer bacterial membrane – From membrane damage to permeability to antimicrobial endolysin

[Display omitted] The outer bacterial membrane of drug-resistant bacteria is a significant barrier to many antimicrobials. Therefore, the development of new antibacterials primarily focuses on damaging the outer bacterial membrane of Gram-negative bacteria. Among many membrane-disrupting substances,...

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Veröffentlicht in:	Journal of colloid and interface science 2024-07, Vol.665, p.814-824
Hauptverfasser:	Skrzyniarz, Kinga, Takvor-Mena, Samuel, Lach, Karolina, Łysek-Gładysińska, Małgorzata, Barrios-Gumiel, Óscar, Cano, Jesús, Ciepluch, Karol
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Sprache:	eng
Schlagworte:	Anti-Bacterial Agents - pharmacology Antibacterial Carbosilane dendrimers Dendrimers - pharmacology Endolysin Endopeptidases Gram-Negative Bacteria Imidazolium Lipids Liposomes Microbial Sensitivity Tests Outer bacterial membrane Permeability Silanes
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container_title	Journal of colloid and interface science
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creator	Skrzyniarz, Kinga Takvor-Mena, Samuel Lach, Karolina Łysek-Gładysińska, Małgorzata Barrios-Gumiel, Óscar Cano, Jesús Ciepluch, Karol
description	[Display omitted] The outer bacterial membrane of drug-resistant bacteria is a significant barrier to many antimicrobials. Therefore, the development of new antibacterials primarily focuses on damaging the outer bacterial membrane of Gram-negative bacteria. Among many membrane-disrupting substances, the most promising are cationic dendritic systems. However, the mode of action may vary among different strains due to variations in the lipid compositions of the membrane. Here, we investigated the interaction of two types of cationic imidazolium carbosilane dendrimers: one with a single cationic group (methyl imidazolium) and the other with the same cationic group but attached to a functional group (a pendant pyridyl moiety), capable of establishing interactions with membranes through H-bonding or ion–dipole electrostatic interactions. We used different models of the outer membrane of Gram-negative bacteria – Escherichia coli, Pseudomonas aeruginosa, and Acinetobacter baumannii. Additionally, we assessed the combined effect of the dendrimers and the antibacterial endolysin on P. aeruginosa. Our results show that the mechanism of action depends on the type of dendrimer and the lipid composition of the membrane. We also demonstrate that the alteration of membrane fluidity and permeability to endolysin by the methyl imidazolium and pyridyl imidazolium dendrimers may play a more significant role in antimicrobial activity compared to membrane damage caused by positively charged dendrimers.
doi_str_mv	10.1016/j.jcis.2024.03.130
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Therefore, the development of new antibacterials primarily focuses on damaging the outer bacterial membrane of Gram-negative bacteria. Among many membrane-disrupting substances, the most promising are cationic dendritic systems. However, the mode of action may vary among different strains due to variations in the lipid compositions of the membrane. Here, we investigated the interaction of two types of cationic imidazolium carbosilane dendrimers: one with a single cationic group (methyl imidazolium) and the other with the same cationic group but attached to a functional group (a pendant pyridyl moiety), capable of establishing interactions with membranes through H-bonding or ion–dipole electrostatic interactions. We used different models of the outer membrane of Gram-negative bacteria – Escherichia coli, Pseudomonas aeruginosa, and Acinetobacter baumannii. Additionally, we assessed the combined effect of the dendrimers and the antibacterial endolysin on P. aeruginosa. 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Therefore, the development of new antibacterials primarily focuses on damaging the outer bacterial membrane of Gram-negative bacteria. Among many membrane-disrupting substances, the most promising are cationic dendritic systems. However, the mode of action may vary among different strains due to variations in the lipid compositions of the membrane. Here, we investigated the interaction of two types of cationic imidazolium carbosilane dendrimers: one with a single cationic group (methyl imidazolium) and the other with the same cationic group but attached to a functional group (a pendant pyridyl moiety), capable of establishing interactions with membranes through H-bonding or ion–dipole electrostatic interactions. We used different models of the outer membrane of Gram-negative bacteria – Escherichia coli, Pseudomonas aeruginosa, and Acinetobacter baumannii. Additionally, we assessed the combined effect of the dendrimers and the antibacterial endolysin on P. aeruginosa. 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Therefore, the development of new antibacterials primarily focuses on damaging the outer bacterial membrane of Gram-negative bacteria. Among many membrane-disrupting substances, the most promising are cationic dendritic systems. However, the mode of action may vary among different strains due to variations in the lipid compositions of the membrane. Here, we investigated the interaction of two types of cationic imidazolium carbosilane dendrimers: one with a single cationic group (methyl imidazolium) and the other with the same cationic group but attached to a functional group (a pendant pyridyl moiety), capable of establishing interactions with membranes through H-bonding or ion–dipole electrostatic interactions. We used different models of the outer membrane of Gram-negative bacteria – Escherichia coli, Pseudomonas aeruginosa, and Acinetobacter baumannii. Additionally, we assessed the combined effect of the dendrimers and the antibacterial endolysin on P. aeruginosa. 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subjects	Anti-Bacterial Agents - pharmacology Antibacterial Carbosilane dendrimers Dendrimers - pharmacology Endolysin Endopeptidases Gram-Negative Bacteria Imidazolium Lipids Liposomes Microbial Sensitivity Tests Outer bacterial membrane Permeability Silanes
title	Molecular mechanism of action of imidazolium carbosilane dendrimers on the outer bacterial membrane – From membrane damage to permeability to antimicrobial endolysin
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