Surface-Confined Amorphous Films from Metal-Coordinated Simple Phenolic Ligands

Rahim, Md. Arifur; Kempe, Kristian; Müllner, Markus; Ejima, Hirotaka; Ju, Yi; Koeverden, Martin P. van; Suma, Tomoya; Braunger, Julia A.; Leeming, Michael G.; Abrahams, Brendan F.; Caruso, Frank

doi:10.1021/acs.chemmater.5b02790

Cited by 184 publications

(222 citation statements)

References 53 publications

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“…[13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29] With respect to administration, especially to the human body,i deally such capsules should be fabricated based on ab iocompatibleb iodegradablep olymer consisting of an amphiphilic backbonet hat gives the possibility to bind equally efficiently to the hydrophobic core and cover it but also to have ah igh affinity to water. [13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29] With respect to administration, especially to the human body,i deally such capsules should be fabricated based on ab iocompatibleb iodegradablep olymer consisting of an amphiphilic backbonet hat gives the possibility to bind equally efficiently to the hydrophobic core and cover it but also to have ah igh affinity to water.…”

Section: Resultsmentioning

confidence: 99%

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

et al. 2018

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A simple and facile strategy for the creation of ferric tannin microcapsules around a liquid, non-sacrificial core is described. The assembly of the capsules occurs rapidly once ferric tannin complexes are subjected to ultrasonic treatment. The driving forces for the rapid capsule assembly reside in the strategy of adding ferric ions into the initial emulsion, which promotes shell formation and stability through well-known complexation effects. This is the first time that microcapsule assemblies of monomeric tannins like epigallocatechin-3-O-gallate has been demonstrated, which are reportedly unable to form dispersing microcapsules in the absence of a templating metal. The efficacy of the approach is demonstrated by the complete release of a hydrophobic molecule that is active against M. tuberculosis by using Acacia tannin capsules. The release kinetics of the active molecule were of zeroth order over a 12 h time frame.

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Section: Resultsmentioning

confidence: 99%

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

et al. 2018

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“…TA acted as organic ligand while metal ions were used as inorganic cross-linker [9,28]. The spontaneous complexation of metal ion with the TA catecholic unit was utilized to form films on zein NPs [29]. (without adjusting pH), the particle size of zein NPs was 96 nm with relatively small PDI (Fig.…”

Section: Preparation and Stability Of Npsmentioning

confidence: 99%

Supramolecular design of coordination bonding architecture on zein nanoparticles for pH-responsive anticancer drug delivery

Liang

Zhou

et al. 2015

Colloids and Surfaces B: Biointerfaces

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“…[35][36][37] The formation and cleavage of coordination bonds between TA and metal ions are pH dependent. 38 Herein, we engineered a kind of drug delivery system based on metal-TA films on zein/CMCS NPs, and the coated NPs exhibited controllable pH-dependent intracellular drug release (Scheme 1).…”

Section: Resultsmentioning

confidence: 99%

“…The metal-ligand films had controllable pH-dependent degradability, which led to an association of DOX release profile with the film degradation kinetics. [35][36][37]49 When the amount of Cu 2+ was increased, the onset of responsive pH dramatically reduced due to the high stability of the , which resulted in the fast release of DOX.…”

Section: In Vitro Drug Releasementioning

confidence: 99%

Tailoring stimuli-responsive delivery system driven by metal–ligand coordination bonding

Liang¹,

Zhou²,

He³

et al. 2017

IJN

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In this study, a novel coordination bonding system based on metal–tannic acid (TA) architecture on zein/carboxymethyl chitosan (CMCS) nanoparticles (NPs) was investigated for the pH-responsive drug delivery. CMCS has been reported to coat on zein NPs as delivery vehicles for drugs or nutrients in previous studies. The cleavage of either the “metal–TA” or “NH 2 –metal” coordination bonds resulted in significant release of guest molecules with high stimulus sensitivity, especially in mild acidic conditions. The prepared metal–TA-coated zein/CMCS NPs (zein/CMCS-TA/metal NPs) could maintain particle size in cell culture medium at 37°C, demonstrating good stability compared with zein/CMCS NPs. In vitro release behavior of doxorubicin hydrochloride (DOX)-loaded metal–TA film-coated zein/CMCS NPs (DOX-zein/CMCS-TA/metal NPs) showed fine pH responsiveness tailored by the ratio of zein to CMCS as well as the metal species and feeding concentrations. The blank zein/CMCS-TA/metal NPs (NPs-TA/metal) were of low cytotoxicity, while a high cytotoxic activity of DOX-zein/CMCS-TA/metal NPs (DOX-NPs-TA/metal) against HepG2 cells was demonstrated by in vitro cell assay. Confocal laser scanning microscopy (CLSM) and flow cytometry were combined to study the uptake efficiency of DOX-NPs or DOX-NPs-TA/metal. This system showed significant potential as a highly versatile and potent platform for drug delivery.

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Surface-Confined Amorphous Films from Metal-Coordinated Simple Phenolic Ligands

Cited by 184 publications

References 53 publications

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Supramolecular design of coordination bonding architecture on zein nanoparticles for pH-responsive anticancer drug delivery

Tailoring stimuli-responsive delivery system driven by metal–ligand coordination bonding

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Surface-Confined Amorphous Films from Metal-Coordinated Simple Phenolic Ligands

Cited by 184 publications

References 53 publications

Stimuli‐Responsive Tannin–FeIII Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Stimuli‐Responsive Tannin–FeIII Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Supramolecular design of coordination bonding architecture on zein nanoparticles for pH-responsive anticancer drug delivery

Tailoring stimuli-responsive delivery system driven by metal&ndash;ligand coordination bonding

Contact Info

Product

Resources

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Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Stimuli‐Responsive Tannin–Fe^III Hybrid Microcapsules Demonstrated by the Active Release of an Anti‐Tuberculosis Agent

Tailoring stimuli-responsive delivery system driven by metal–ligand coordination bonding