Adsorption of doxorubicin on citrate-capped gold nanoparticles: insights into engineering potent chemotherapeutic delivery systems

Curry, Dennis E.; Cameron, Amanda; MacDonald, Bruce C.; Nganou, Collins; Scheller, Hope; Marsh, James; Beale, Stefanie; Lu, Mang; Shan, Zhi; Kaliaperumal, Rajendran; Xu, Heping; Servos, Mark R.; Bennett, Craig; MacQuarrie, Stephanie; Oakes, Ken D.; Mkandawire, Martin; Zhang, Xu

doi:10.1039/c5nr05826k

Cited by 73 publications

(61 citation statements)

References 55 publications

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“…Therefore, it is very necessary to develop a drug carrier with good biocompatibility and high drug loading ability. In recent years, a lot of nanomaterials, such as quantum dots [12,13], chitosan [14,15] silicon nanomaterials [16,17], polymeric nanomaterials [18][19][20], fluorescent nanoparticles [21][22][23][24], and metal nanomaterials [25][26][27][28][29][30] were developed as DOX transport vectors for tumor diagnosis and therapy. Gold nanomaterials have been widely used due to their unique chemical and optical properties, low toxicity, good biocompatibility, and surface modification of control ability [31,32] among these nanomaterials.…”

Section: Introductionmentioning

confidence: 99%

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One-step, Rapid and Green Synthesis of Multifunctional Gold Nanoparticles for Tumor-Targeted Imaging and Therapy

et al. 2020

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Gold nanoparticles (GNPs) have always been used as doxorubicin (DOX) transport vectors for tumor diagnosis and therapy; however, the synthesis process of these vectors is to prepare GNPs via chemical reduction method firstly, followed by conjugation with DOX or specific peptides, so these meth•ods faced some common problems including multiple steps, high cost, time consuming, complicated preparation, and post-processing. Here, we present a one-step strategy to prepare the DOX-conjugated GNPs on the basis of DOX's chemical constitution for the first time. Moreover, we prepare a multifunctional GNPs (DRN-GNPs) with a one-step method by the aid of the reductive functional groups possessed by DOX, RGD peptides, and nuclear localization peptides (NLS), which only needs 30 min. The results of scattering images and cell TEM studies indicated that the DRN-GNPs could target the Hela cells' nucleus. The tumor inhibition rates of DRN-GNPs via tumor and tail vein injection of nude mice were 66.7% and 57.7%, respectively, which were significantly enhanced compared to control groups. One step synthesis of multifunctional GNPs not only saves time, materials, but also it is in line with the development direction of green chemistry, and it would lay the foundation for large-scale applications within the near future. Our results suggested that the fabrication strategy is efficient, and our prepared DRN-GNPs possess good colloidal stability in the physiological system; they are a potentially contrast agent and an efficient DOX transport vector for cervical cancer diagnosis and therapy.

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Section: Introductionmentioning

confidence: 99%

“…The second is to incubate GNPs with DOX for at least 24 h [29]. The third is to replace citrate conjugated on the surface of gold nanoparticles (GNPs) by DOX [30]. Although these DOX-conjugated GNPs have been used in tumor therapy, the application is still limited due to the lack of sufficient specificity.…”

Section: Introductionmentioning

confidence: 99%

One-step, Rapid and Green Synthesis of Multifunctional Gold Nanoparticles for Tumor-Targeted Imaging and Therapy

et al. 2020

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“…The quenching phenomenon mainly depended upon the partly overlap of the fluorescence band of the PFBT (450–700 nm) with the absorption band of the HGCNs (500–700 nm) (Figure c), as required for FRET . Whereas upon NIR irradiation, the fluorescence signals of PFBT were dequenched due to the increase of the distance between PFBT and HGCNs . As a result, PFBT could be utilized as the real‐time tracing probe since the fluorescent signals could be turned “OFF” (quenched) when transported in circulatory system, and then be turned “ON” (dequenched) by NIR laser when delivered to the determined tumor sites.…”

Section: Resultsmentioning

confidence: 99%

Hollow Au–Cu Nanocomposite for Real‐Time Tracing Photothermal/Antiangiogenic Therapy

Pang

Tan

Wang

et al. 2017

Adv Healthcare Materials

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High absorption in the near-infrared (NIR) region is essential for a photoabsorbing agents to realize efficient photothermal therapy (PTT) for cancer. Here, a novel hollow Au-Cu nanocomposite (HGCNs) is developed, which displays a significantly enhanced NIR surface plasmon resonance absorption and photothermal transduction efficiency. Besides, fluorescent polymer dots poly(9,9-dioctylfluorene-2,7-diyl-co-benzothiadiazole) (PFBT) and chemotherapeutic mammalian target of rapamycin (mTOR) inhibitor agent rapamycin (RAPA) are attached onto the HGCNs (RAPA/PFBT-HGCNs) for real-time NIR fluorescence tracing and combined PTT/antiangiogenesis therapy. In particular, due to the fluorescence resonance energy transfer effect, RAPA/PFBT-HGCNs can act as NIR-activatable on/off probe system for real-time tracing of tumor tissues. A standard in vitro cellular uptake study, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay, dual-staining study, and flow cytometry assay reveal that the RAPA/PFBT-HGCNs combined with NIR laser exhibit higher drug accumulation and cytotoxicity in both tumor cells and epithelial cells. Moreover, the margins of tumor and normal tissue can be accurately indicated by NIR-stimulated dequenched PFBT after 24 h intravenous administration. Further, tumor growth can be considerably hampered by the optimal formulation plus laser treatment with relatively lower side effects. Consequently, the work highlights the real-time tracing and enhanced PTT/antiangiogenesis therapy prospects of the established HGCNs with tremendous potential for treatment of cancer.

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“…This could be due to the number of protonated amino groups present in the drug backbone (four in the case of BNIPSpm when compared to two in Previous studies have shown that doxorubicin can be absorbed onto colloidal gold surfaces and electrostatically attached. In the case of this drugs, it has been shown that the hydrophobic moieties within the structure drive the molecule towards the gold surface and secondly the charge within the compound resulting from the one primary amine allow for electrostatic attachment [39]. The mechanism of bisnaphtalamide drug attachment onto the HNP surface may undergo a similar mechanistic approach to attachment, however, the multiple amine charges resulting from the polyamine chain far outweigh the hydrophobicity of the naphthalamide moieties within the drug structure resulting in a freely soluble drug compound, unlike in the case of doxorubicin.…”

Section: Hnp-drug Conjugation and Characterisationmentioning

confidence: 99%

Thermally triggered theranostics for pancreatic cancer therapy

et al. 2017

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Hybrid iron oxide-gold nanoparticles (HNPs) are capable of drug binding onto their surface with a triggered release at elevated temperatures. The iron oxide core allows for diagnostic imaging whilst heating of the gold shell upon laser irradiation reverses drug binding. This study exploits the reversible binding of novel polyamine based drugs in order to provide specific and effective method for pancreatic cancer treatment. Here we used novel bisnaphthalamido (BNIP) based drug series. Our hybrid nanoparticles (50 nm) were capable of drug loading onto their surface (3:1:0.25, Drug:Fe:Au). By exploiting the surface-to-drug electrostatic interaction of a range of BNIP agents, heat triggered drug release was achieved.12-fold reduction in IC 50 after 24 h in vitro and 5-fold reduction of tumour retardation in vivo compared with free drug in pancreatic models after treatment with the HNP-formulation and laser irradiation. This heat activated system could provide a key platform for future therapy strategies.

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Adsorption of doxorubicin on citrate-capped gold nanoparticles: insights into engineering potent chemotherapeutic delivery systems

Cited by 73 publications

References 55 publications

One-step, Rapid and Green Synthesis of Multifunctional Gold Nanoparticles for Tumor-Targeted Imaging and Therapy

One-step, Rapid and Green Synthesis of Multifunctional Gold Nanoparticles for Tumor-Targeted Imaging and Therapy

Hollow Au–Cu Nanocomposite for Real‐Time Tracing Photothermal/Antiangiogenic Therapy

Thermally triggered theranostics for pancreatic cancer therapy

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