Colloidal Stability of Citrate and Mercaptoacetic Acid Capped Gold Nanoparticles upon Lyophilization: Effect of Capping Ligand Attachment and Type of Cryoprotectants

Alkilany, Alaaldin M.; Abulateefeh, Samer R.; Mills, Kayla K; Yaseen, Alaa’; Hamaly, Majd A.; AlKhatib, Hatim S.; Aiedeh, Khaled; Stone, John W.

doi:10.1021/la504000v

Cited by 102 publications

(81 citation statements)

References 39 publications

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“…In comparison, HDL nanoparticles were expected to possess a neutral surface charge, as the HDL molecule is relatively neutral [70]. For storage, nanoparticles can be lyophilized into powder to improve longer term stability, as detailed in [71]. Finally, FTIR spectroscopy was utilized to confirm the presence of PC and HDL on the surface of the gold nanoparticles (Supplementary Figure 3).…”

Section: Discussionmentioning

confidence: 99%

An Interdisciplinary Computational/Experimental Approach to Evaluate Drug-Loaded Gold Nanoparticle Tumor Cytotoxicity

Curtis

England

et al. 2016

Nanomedicine (Lond.)

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Aim: Clinical translation of cancer nanotherapy has largely failed due to the infeasibility of optimizing the complex interaction of nano/drug/tumor/patient parameters. We develop an interdisciplinary approach modeling diffusive transport of drug-loaded gold nanoparticles in heterogeneously-vascularized tumors. Materials & methods: Evaluated lung cancer cytotoxicity to paclitaxel/cisplatin using novel two-layer (hexadecanethiol/phosphatidylcholine) and three-layer (with high-densitylipoprotein) nanoparticles. Computer simulations calibrated to in-vitro data simulated nanotherapy of heterogeneously-vascularized tumors. Results: Evaluation of freedrug cytotoxicity between monolayer/spheroid cultures demonstrates a substantial differential, with increased resistance conferred by diffusive transport. Nanoparticles had significantly higher efficacy than free-drug. Simulations of nanotherapy demonstrate 9.5% (cisplatin) and 41.3% (paclitaxel) tumor radius decrease. Conclusion: Interdisciplinary approach evaluating gold nanoparticle cytotoxicity and diffusive transport may provide insight into cancer nanotherapy.

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Section: Discussionmentioning

confidence: 99%

An Interdisciplinary Computational/Experimental Approach to Evaluate Drug-Loaded Gold Nanoparticle Tumor Cytotoxicity

Curtis

England

et al. 2016

Nanomedicine (Lond.)

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“…Although AuNPs@citrate is known to have a strong negative surface charge, its colloidal stability is still problematic at high ionic strength conditions . So we wondered what would happen for AuNPs stabilized with a neutrally charged capping agent.…”

Section: Resultsmentioning

confidence: 99%

The Effect of ζ‐Potential and Hydrodynamic Size on Nanoparticle Interactions in Hydrogels

Kim

Lee

Heo

et al. 2018

Part & Part Syst Charact

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The ζ‐potential and hydrodynamic size (dh) of nanoparticles (NPs) are systematically controlled by capping gold NPs (AuNPs) with polymers having different charges and treating them in NaCl solutions of diverse concentrations. Interactions between AuNPs in hydrogel are caused by chemical reactions induced by 1,4‐dithiothreitol. The effect of ζ‐potential is clear, as negatively charged AuNPs can be aggregated in neutral agarose gel, but the amount of aggregation is significantly affected by the magnitude of the negative surface charge on the AuNPs. However, all positively charged AuNPs show negligible aggregation in agarose gel with slightly negative polarity. The effect of dh on AuNP aggregation is different from that of ζ‐potential. Although AuNPs with small dh generally show more aggregation than those with large dh, the amount of AuNP capping layer is critical. Thus, the amount of polymer present on NP surface needs to be considered to investigate the effect of dh on AuNP aggregation. Through extended Derjaguin, Landau, Verwey, Overbeek (XDLVO) theory, it is shown that the charges of the AuNPs and the hydrogel, as well as the dh of the NPs, are related to electrostatic repulsion and steric hindrance, which affect AuNP aggregation in hydrogel.

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“…The plasmon peak of TGA-AuNPs absorbs at 548 nm, MPA-AuNPs absorbs at 536–538 nm, l -cysteine-AuNPs and cysteamine AuNPs absorbs at 534 nm, and GSH-AuNPs absorbs at 530 nm. Spherical AuNPs are generally known to have their plasmonic absorption within the visible region [24]. The difference in plasmonic absorption of the NPs is related to their surface capping ligand.…”

Section: Resultsmentioning

confidence: 99%

Gold Nanoparticle-Quantum Dot Fluorescent Nanohybrid: Application for Localized Surface Plasmon Resonance-induced Molecular Beacon Ultrasensitive DNA Detection

Adegoke

Park

2016

Nanoscale Res Lett

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In biosensor design, localized surface plasmon resonance (LSPR)-induced signal from gold nanoparticle (AuNP)-conjugated reporter can produce highly sensitive nanohybrid systems. In order to retain the physicochemical properties of AuNPs upon conjugation, high colloidal stability in aqueous solution is needed. In this work, the colloidal stability with respect to the zeta potential (ZP) of four negatively charged thiol-functionalized AuNPs, thioglycolic (TGA)-AuNPs, 3-mercaptopropionic acid (MPA)-AuNPs, l-cysteine-AuNPs and l-glutathione (GSH)-AuNPs, and a cationic cyteamine-capped AuNPs was studied at various pHs, ionic strength, and NP concentration. A strong dependence of the ZP charge on the nanoparticle (NP) concentration was observed. High colloidal stability was exhibited between pH 3 and 9 for the negatively charged AuNPs and between pH 3 and 7 for the cationic AuNPs. With respect to the ionic strength, high colloidal stability was exhibited at ≤104 μM for TGA-AuNPs, l-cysteine-AuNPs, and GSH-AuNPs, whereas ≤103 μM is recommended for MPA-AuNPs. For the cationic AuNPs, very low ionic strength of ≤10 μM is recommended due to deprotonation at higher concentration. GSH-AuNPs were thereafter bonded to SiO2-functionalized alloyed CdZnSeS/ZnSe1.0S1.3 quantum dots (SiO2-Qdots) to form a plasmon-enhanced AuNP-SiO2-Qdots fluorescent nanohybrid. The AuNP-SiO2-Qdots conjugate was afterward conjugated to a molecular beacon (MB), thus forming an ultrasensitive LSPR-induced SiO2-Qdots-MB biosensor probe that detected a perfect nucleotide DNA sequence at a concentration as low as 10 fg/mL. The limit of detection was ~11 fg/mL (1.4 fM) while the biosensor probe efficiently distinguished between single-base mismatch and noncomplementary sequence target.Electronic supplementary materialThe online version of this article (doi:10.1186/s11671-016-1748-3) contains supplementary material, which is available to authorized users.

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Colloidal Stability of Citrate and Mercaptoacetic Acid Capped Gold Nanoparticles upon Lyophilization: Effect of Capping Ligand Attachment and Type of Cryoprotectants

Cited by 102 publications

References 39 publications

An Interdisciplinary Computational/Experimental Approach to Evaluate Drug-Loaded Gold Nanoparticle Tumor Cytotoxicity

An Interdisciplinary Computational/Experimental Approach to Evaluate Drug-Loaded Gold Nanoparticle Tumor Cytotoxicity

The Effect of ζ‐Potential and Hydrodynamic Size on Nanoparticle Interactions in Hydrogels

Gold Nanoparticle-Quantum Dot Fluorescent Nanohybrid: Application for Localized Surface Plasmon Resonance-induced Molecular Beacon Ultrasensitive DNA Detection

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