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The Effect of Chemical Structure of OEG Ligand Shells with Quaternary Ammonium Moiety on the Colloidal Stabilization, Cellular Uptake and Photothermal Stability of Gold Nanorods

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dc.rights.license CC BY eng
dc.contributor.author Salajkova, Sarka cze
dc.contributor.author Havel, Filip cze
dc.contributor.author Sramek, Michal cze
dc.contributor.author Novotny, Filip cze
dc.contributor.author Maliňák, Dávid cze
dc.contributor.author Doležal, Rafael cze
dc.contributor.author Prchal, Lukas cze
dc.contributor.author Benkova, Marketa cze
dc.contributor.author Soukup, Ondrej cze
dc.contributor.author Musílek, Kamil cze
dc.contributor.author Kuča, Kamil cze
dc.contributor.author Bartek, Jiri cze
dc.contributor.author Proska, Jan cze
dc.contributor.author Zarska, Monika cze
dc.contributor.author Hodny, Zdenek cze
dc.date.accessioned 2026-07-08T07:45:43Z
dc.date.available 2026-07-08T07:45:43Z
dc.date.issued 2021 eng
dc.identifier.issn 1178-2013 eng
dc.identifier.uri http://hdl.handle.net/20.500.12603/2636
dc.description.abstract Purpose: Plasmonic photothermal cancer therapy by gold nanorods (GNRs) emerges as a promising tool for cancer treatment. The goal of this study was to design cationic oligoethylene glycol (OEG) compounds varying in hydrophobicity and molecular electrostatic potential as ligand shells of GNRs. Three series of ligands with different length of OEG chain (ethylene glycol units = 3, 4, 5) and variants of quaternary ammonium salts (QAS) as terminal functional group were synthesized and compared to a prototypical quaternary ammonium ligand with alkyl chain - (16-mercaptohexadecyl)trimethylammonium bromide (MTAB). Methods: Step-by-step research approach starting with the preparation of compounds characterized by NMR and HRMS spectra, GNRs ligand exchange evaluation through characterization of cytotoxicity and GNRs cellular uptake was used. A method quantifying the reshaping of GNRs was applied to determine the effect of ligand structure on the heat transport from GNRs under fs-laser irradiation. Results: Fourteen out of 18 synthesized OEG compounds successfully stabilized GNRs in the water. The colloidal stability of prepared GNRs in the cell culture medium decreased with the number of OEG units. In contrast, the cellular uptake of OEG+GNRs by HeLa cells increased with the length of OEG chain while the structure of the QAS group showed a minor role. Compared to MTAB, more hydrophilic OEG compounds exhibited nearly two order of magnitude lower cytotoxicity in free state and provided efficient cellular uptake of GNRs close to the level of MTAB. Regarding photothermal properties, OEG compounds evoked the photothermal reshaping of GNRs at lower peak fluence (14.8 mJ/cm(2)) of femtosecond laser irradiation than the alkanethiol MTAB. Conclusion: OEG+GNRs appear to be optimal for clinical applications with systemic administration of NPs not-requiring irradiation at high laser intensity such as drug delivery and photothermal therapy inducing apoptosis. eng
dc.format p. 3407-3427 eng
dc.language.iso eng eng
dc.publisher DOVE MEDICAL PRESS LTD eng
dc.relation.ispartof International Journal of Nanomedicine, volume 16, issue: May eng
dc.subject gold nanorods eng
dc.subject quaternary ammonium salts eng
dc.subject oligoethylene glycol eng
dc.subject cellular uptake eng
dc.subject photothermal stability eng
dc.title The Effect of Chemical Structure of OEG Ligand Shells with Quaternary Ammonium Moiety on the Colloidal Stabilization, Cellular Uptake and Photothermal Stability of Gold Nanorods eng
dc.type article eng
dc.identifier.obd 43877699 eng
dc.identifier.wos 000651874100001 eng
dc.identifier.doi 10.2147/IJN.S304953 eng
dc.publicationstatus postprint eng
dc.peerreviewed yes eng
dc.source.url https://www.dovepress.com/the-effect-of-chemical-structure-of-oeg-ligand-shells-with-quaternary--peer-reviewed-fulltext-article-IJN cze
dc.rights.access Open Access eng


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