Your search keyword '"Tian, Furong"' showing total 11 results

1. Mycotoxin Detection through Colorimetric Immunoprobing with Gold Nanoparticle Antibody Conjugates.

Author

Sharma, Vinayak, Javed, Bilal, Byrne, Hugh J., and Tian, Furong

Subjects

SURFACE plasmon resonance, GOLD nanoparticles, CHEMICAL stability, BIOCONJUGATES, PHYSISORPTION, COLORIMETRY

Abstract

Driven by their exceptional optical characteristics, robust chemical stability, and facile bioconjugation, gold nanoparticles (AuNPs) have emerged as a preferred material for detection and biosensing applications in scientific research. This study involves the development of a simple, rapid, and cost-effective colorimetric immuno-sensing probe to detect aflatoxin B1 and zearalenone using AuNP antibody (AuNP-mAb) conjugates. Anti-toxin antibodies were attached to the AuNPs by using the physical adsorption method. The colorimetric immunosensor developed operates on the principle that the optical properties of the AuNP are very sensitive to aggregation, which can be induced by a critical high salt concentration. Although the presence of antibodies on the AuNP surface inhibits the aggregation, these antibodies bind to the toxin with higher affinity, which leads to exposure of the surface of AuNPs and aggregation in a salt environment. The aggregation triggers a noticeable but variable alteration in color from red to purple and blueish gray, as a result of a red shift in the surface plasmon resonance band of the AuNPs. The extent of the shift is dependent on the toxin exposure dose and can be quantified using a calibration curve through UV–Visible–NIR spectroscopy. The limit of detection using this assay was determined to be as low as 0.15 ng/mL for both zearalenone and aflatoxin B1. The specificity of the prepared immunoprobe was analyzed for a particular mycotoxin in the presence of other mycotoxins. The developed immunoprobe was evaluated for real-world applicability using artificially spiked samples. This colorimetric immunoprobe based on localized surface plasmon resonance (LSPR) has a reduced detection limit compared to other immunoassays, a rapid readout, low cost, and facile fabrication. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multifunctional Gold Nanocarriers for Cancer Theranostics: From Bench to Bedside and Back Again?

Author

Conde, João, Tian, Furong, Baptista, Pedro V., de la Fuente, Jesús M., Rathbone, Michael J., Series editor, Alonso, Maria José, editor, and Garcia-Fuentes, Marcos, editor

Published

2014

3. pH and NaCl Optimisation to Improve the Stability of Gold and Silver Nanoparticles' Anti-Zearalenone Antibody Conjugates for Immunochromatographic Assay.

Author

Shahjahan, Thasmin, Javed, Bilal, Sharma, Vinayak, and Tian, Furong

Subjects

GOLD nanoparticles, SILVER nanoparticles, SODIUM borohydride, IMMUNOGLOBULINS, SALT, SILVER, REDUCING agents

Abstract

The aim of this research is to define optimal conditions to improve the stability of gold and silver nanoparticles' anti-zearalenone antibody conjugates for their utilisation in lateral flow immunochromatographic assay (LFIA). The Turkevich–Frens method was used to synthesise gold nanoparticles (AuNPs), which were between 10 and 110 nm in diameter. Silver nanoparticles (AgNPs) with a size distribution of 2.5 to 100 nm were synthesised using sodium borohydride as a reducing agent. The onset of AuNP and AgNP aggregation occurred at 150 mM and 80 mM NaCl concentrations, respectively. Stable Au and Ag nanoparticle–antibody conjugates were achieved at 1.2 mM of K2CO3 concentration, which corresponds to the pH value of ≈7. Lastly, the highest degree of conjugation between Au and Ag nanoparticles and anti-zearalenone antibodies was at 4 and 6 µg/mL of antibody concentrations. The optimisation of the conjugation conditions can contribute to better stability of nanoparticles and their antibody conjugate and can improve the reproducibility of results of bioreporter molecules in biosensing lateral flow devices. [ABSTRACT FROM AUTHOR]

Published

2023

4. Synergistic Anticancer Response of Curcumin and Piperine Loaded Lignin-g-p (NIPAM-co-DMAEMA) Gold Nanogels Against Glioblastoma Multiforme

Author

Zhao, Xinyi, Javad, Bilal, Cui, Daxing, Curtin, James, Tian, Furong, and X.Z: thanks TU Dublin Postgraduate Scholarship Programme. B.J has received support from Enterprise Ireland and is recently selected as Marie Sklodowska-curie research fellow. We thank the support of the National Cooperation Foundation of China ( 8202010801) and the National Nature Scientific Foundation of China (81921002).

Subjects

Biological Factors, Nanomedicine, Biology and Biomimetic Materials, Gold Nanoparticles, Immunostaining, Drug Delivery, Nucleic Acids, Nucleotides, and Nucleosides, Physical Chemistry, Caspase-3 Apoptosis, Glioblastoma Multiforme, Cancer, Kinetic Drug Release

Abstract

Glioblastoma multiforme (GBM) is the most aggressive and commonly diag- 11 nosed brain cancer and presents a strong resistance to routine chemotherapeutic drugs. 12 The present study involves the synthesis of Lignin-g- p (NIPAM-co-DMAEMA) gold 13 nanogel, loaded with curcumin and piperine to treat GBM. The application has three 14 functions: (1) overcome the limitations of biodistribution, (2) enhance the toxicity of an- 15 ticancer drugs against GBM, (3) identify the uptake pathway. Atom transfer radical 16 polymerization was used to synthesize the Lignin-g-PNIPAM network, crosslinked with 17 the gold nanoparticles (GNPs) to self-assemble into nanogels. The size distribution and 18 morphological analysis confirmed that the drug-loaded gold nanogels are spherical and 19 exist in the size of 180 nm. The single and combinatorial toxicity effects of curcumin and 20 piperine loaded Lignin-g- p (NIPAM-co-DMAEMA) gold nanogels were studied against 21 GBM cells. A cytotoxicity analysis against glioblastoma cells (U-251 MG) displayed an- 22 ticancer properties. IC50 of curcumin and piperine-loaded gold nanogels were recorded 23 at 30 μM and 35 μM respectively. Immunostaining analysis of the drug-loaded nanogel 24 treated cells shows that the F-actin induced cytoskeletal deformations result in the trig- 25 gering of caspase-3 apoptotic pathways. Kinetic drug release revealed the 86% release of 26 hybrid curcumin-piperine from nanogel after 250 mins at pH 4. Atomic absorption 27 spectroscopic analysis confirmed that the drug-loaded nanogels have better internaliza- 28 tion or association with the cancer cells than the GNPs or nanogels alone. Morphology 29 studies further confirmed that the curcumin and piperine nanogels penetrate the cells via 30 endocytic pathways and induce caspase-3 related apoptosis. The experimental evidence 31 shows the enhanced synergistic properties of combinatorial curcumin-piperine gold 32 nanogels (IC 50 : 21 μM) to overcome the limitations of conventional chemotherapeutic 33 treatments of glioma cells.

Published

2021

5. Design and Development of Magnetic Iron Core Gold Nanoparticle-Based Fluorescent Multiplex Assay to Detect Salmonella.

Author

Zhao, Xinyi, Smith, Gwendoline, Javed, Bilal, Dee, Garret, Gun'ko, Yurii K., Curtin, James, Byrne, Hugh J., O'Connor, Christine, and Tian, Furong

Subjects

MAGNETIC cores, GOLD nanoparticles, SALMONELLA, SALMONELLA enteritidis, FOOD contamination, SALMONELLA detection

Abstract

Salmonella is a bacterial pathogen which is one of the leading causes of severe illnesses in humans. The current study involved the design and development of two methods, respectively using iron oxide nanoparticle (IONP) and iron core gold nanoparticle (ICGNP), conjugated with the Salmonella antibody and the fluorophore, 4-Methylumbelliferyl Caprylate (4-MUCAP), used as an indicator, for its selective and sensitive detection in contaminated food products. Twenty double-blind beverage samples, spiked with Salmonella enteritidis, Staphylococcus aureus, and Escherichia coli, were prepared in sterile Eppendorf® tubes at room temperature. The gold layer and spikes of ICGNPs increased the surface areas. The ratio of the surface area is 0.76 (IONPs/ICGNPs). The comparative sensitivity and specificity of the IONP-based and the ICGNP-based methods to detect Salmonella were determined. The ICGNP method shows the limit of detection is 32 Salmonella per mL. The ICGNPs had an 83.3% sensitivity and a 92.9% specificity value for the presence and detection of Salmonella. The IONP method resulted in a limit of detection of 150 Salmonella per mL, and a 66.7% sensitivity and 83.3% specificity for the presence and detection of Salmonella. The higher surface area of ICGNPs increases the efficiency of detection. The monitoring of Salmonella can thus be achieved by a rapid magnetic fluorescent assay using a smartphone for image capture and analyze, providing quantitative results. The findings from the present study would help to detect Salmonella rapidly in water. It can improve the microbial quality of water and food safety due to the presence of Salmonella in the water environment. [ABSTRACT FROM AUTHOR]

Published

2022

6. Plasmonic gold nanoparticles for detection of fungi and human cutaneous fungal infections.

Author

Sojinrin, Tobiloba, Conde, João, Liu, Kangze, Curtin, James, Byrne, Hugh, Cui, Daxiang, and Tian, Furong

Subjects

GOLD nanoparticles, POTASSIUM hydroxide, MYCOSES, FUNGI, PLASMONICS

Abstract

Fungi, which are common in the environment, can cause a multitude of diseases. Warm, humid conditions allow fungi to grow and infect humans via the respiratory, digestive and reproductive tracts, genital area and other bodily interfaces. Fungi can be detected directly by microscopy, using the potassium hydroxide test, which is the gold standard and most popular method for fungal screening. However, this test requires trained personnel operating specialist equipment, including a fluorescent microscope and culture facilities. As most acutely infected patients seek medical attention within the first few days of symptoms, the optimal diagnostic test would be rapid and self-diagnostic simplifying and improving the therapeutic outcome. In suspensions of gold nanoparticles, Aspergillus niger can cause a colour change from red to blue within 2 min, as a result of changes in nanoparticle shape. A similar colour change was observed in the supernatant of samples of human toenails dispersed in water. Scanning electron microscopy, UV/Vis and Raman spectroscopy were employed to monitor the changes in morphology and surface plasmon resonance of the nanoparticles. The correlation of colour change with the fungal infection was analysed using the absorbance ratio at 520 nm/620 nm. We found a decrease in the ratio when the fungi concentration increased from 1 to 16 CFU/mL, with a detection limit of 10 CFU/mL. The test had an 80% sensitivity and a 95% specificity value for the diagnosis of athlete's foot in human patients. This plasmonic gold nanoparticle-based system for detection of fungal infections measures the change in shape of gold nanoparticles and generates coloured solutions with distinct tonality. Our application has the potential to contribute to self-diagnosis and hygiene control in laboratories/hospitals with fewer resources, just using the naked eye. [ABSTRACT FROM AUTHOR]

Published

2017

7. Gold nanostars for efficient in vitro and in vivo real-time SERS detection and drug delivery via plasmonic-tunable Raman/FTIR imaging.

Author

Tian, Furong, Conde, João, Bao, Chenchen, Chen, Yunsheng, Curtin, James, and Cui, Daxiang

Subjects

*ANTINEOPLASTIC agents, *GOLD nanoparticles, *DRUG delivery systems, *SERS spectroscopy, *PLASMONIC Raman sensors, *FOURIER transform infrared spectroscopy

Abstract

The application of plasmonic-enhanced Raman imaging of cancer cells and drug delivery is gaining momentum. Here, we propose a new theranostic strategy based on an efficient plasmonic-tunable Raman/Fourier transform infrared (FTIR) spectroscopy imaging, to simultaneously evaluate the anticancer drug scattering cellular imaging and the Raman scattering molecular vibration signals in living cells. This technique allows to monitoring the drug release throughout the cell cycle and in vivo biodistribution and biocompatibility with low dose drug therapy (200 μg/mL) and low toxicity effect. This system can directly track in real-time the delivery and release of an anticancer drug (mitoxantrone, MTX) from gold nanostars in single living cells and in mice (healthy and lung cancer mice models), revealing a strong accumulation in the heart of healthy mice 5 min after administration and infiltration in the tumor site of lung cancer mice 5 h after systemic injection. This in vivo SERS detection method holds a great promise for application in image-guided cancer chemotherapy or as a nonspecific anti-inflammatory therapy for patients with cardiovascular diseases or chronic heart failure. [ABSTRACT FROM AUTHOR]

Published

2016

8. In vivo tumor targeting via nanoparticle-mediated therapeutic siRNA coupled to inflammatory response in lung cancer mouse models.

Author

Conde, João, Tian, Furong, Hernández, Yulán, Bao, Chenchen, Cui, Daxiang, Janssen, Klaus-Peter, Ibarra, M. Ricardo, Baptista, Pedro V., Stoeger, Tobias, and de la Fuente, Jesús M.

Subjects

*NANOMEDICINE, *SMALL interfering RNA, *INFLAMMATION, *LUNG cancer treatment, *GOLD nanoparticles, *DRUG delivery devices, *LABORATORY mice

Abstract

Abstract: Up to now, functionalized gold nanoparticles have been optimized as an effective intracellular in vitro delivery vehicle for siRNAs to interfere with the expression of specific genes by selective targeting, and provide protection against nucleases. Few examples however of suchlike in vivo applications have been described so far. In this study, we report the use of siRNA/RGD gold nanoparticles capable of targeting tumor cells in a lung cancer syngeneic orthotopic murine model. Therapeutic RGD-nanoparticle treatment resulted in successful targeting evident from significant c-myc oncogene down-regulation followed by tumor growth inhibition and prolonged survival of lung tumor bearing mice, possibly via αvβ3 integrin interaction. Our results suggest that RGD gold nanoparticles-mediated delivery of siRNA by intratracheal instillation in mice leads to successful suppression of tumor cell proliferation and respective tumor size reduction. These results reiterate the capability of functionalized gold nanoparticles for targeted delivery of siRNA to cancer cells towards effective silencing of the specific target oncogene. What is more, we demonstrate that the gold-nanoconjugates trigger a complex inflammatory and immune response that might promote the therapeutic effect of the RNAi to reduce tumor size with low doses of siRNA. [Copyright &y& Elsevier]

Published

2013

9. Enhanced Anticancer Response of Curcumin- and Piperine-Loaded Lignin-g-p (NIPAM-co-DMAEMA) Gold Nanogels against U-251 MG Glioblastoma Multiforme.

Author

Javed, Bilal, Zhao, Xinyi, Cui, Daxiang, Curtin, James, and Tian, Furong

Subjects

GLIOBLASTOMA multiforme, NANOGELS, GOLD nanoparticles, WESTERN immunoblotting

Abstract

Glioblastoma multiforme (GBM) is the most aggressive and commonly diagnosed brain cancer and is highly resistant to routine chemotherapeutic drugs. The present study involves the synthesis of Lignin-g-p (NIPAM-co-DMAEMA) gold nanogel, loaded with curcumin and piperine, to treat GBM. The ongoing study has the application potential to (1) overcome the limitations of drugs biodistribution, (2) enhance the toxicity of anticancer drugs against GBM, and (3) identify the drugs uptake pathway. Atom transfer radical polymerization was used to synthesize the Lignin-g-PNIPAM network, crosslinked with the gold nanoparticles (GNPs) to self-assemble into nanogels. The size distribution and morphological analysis confirmed that the drug-loaded gold nanogels are spherical and exist in the size of 180 nm. The single and combinatorial toxicity effects of curcumin- and piperine-loaded Lignin-g-p (NIPAM-co-DMAEMA) gold nanogels were studied against U-251 MG GBM cells. A cytotoxicity analysis displayed anticancer properties. IC50 of curcumin- and piperine-loaded gold nanogels were recorded at 30 μM and 35 μM, respectively. Immunostaining and Western blot analysis confirmed the protein expression of caspase-3 and cleaved caspase-3 in cells treated with drug-loaded nanogels. Kinetic drug release revealed 86% release of hybrid curcumin–piperine from gold nanogel after 250 min at pH 4. Atomic absorption spectroscopic analysis confirmed that the drug-loaded nanogels have better internalization or association with the cancer cells than the GNPs or nano-gels alone. Morphological studies further confirmed that the curcumin and piperine nanogels penetrate the cells via endocytic pathways and induce caspase-3-related apoptosis. The experimental evidence shows the enhanced properties of combinatorial curcumin–piperine gold nanogels (IC50: 21 μM) to overcome the limitations of conventional chemotherapeutic treatments of glioma cells. [ABSTRACT FROM AUTHOR]

Published

2021

10. Bioresponsive antisense DNA gold nanobeacons as a hybrid in vivo theranostics platform for the inhibition of cancer cells and metastasis.

Author

Bao, Chenchen, Cui, Daxiang, Conde, João, Curtin, James, Artzi, Natalie, and Tian, Furong

Subjects

GOLD nanoparticles, COMPANION diagnostics, CANCER diagnosis, ANTISENSE DNA, CANCER cells, METASTASIS, GENETICS, THERAPEUTICS

Abstract

Gold nanobeacons can be used as a powerful tool for cancer theranostics. Here, we proposed a nanomaterial platform based on gold nanobeacons to detect, target and inhibit the expression of a mutant Kras gene in an in vivo murine gastric cancer model. The conjugation of fluorescently-labeled antisense DNA hairpin oligonucleotides to the surface of gold nanoparticles enables using their localized surface plasmon resonance properties to directly track the delivery to the primary gastric tumor and to lung metastatic sites. The fluorescently labeled nanobeacons reports on the interaction with the target as the fluorescent Cy3 signal is quenched by the gold nanoparticle and only emit light following conjugation to the Kras target owing to reorganization and opening of the nanobeacons, thus increasing the distance between the dye and the quencher. The systemic administration of the anti-Kras nanobeacons resulted in approximately 60% tumor size reduction and a 90% reduction in tumor vascularization. More important, the inhibition of the Kras gene expression in gastric tumors prevents the occurrence of metastasis to lung (80% reduction), increasing mice survival in more than 85%. Our developed platform can be easily adjusted to hybridize with any specific target and provide facile diagnosis and treatment for neoplastic diseases. [ABSTRACT FROM AUTHOR]

Published

2015

11. In situ tuning and investigating the growth process of size controllable gold nanoparticles and statistical size prediction analysis.

Author

Sharma, Vinayak, Javed, Bilal, Estrada, Giovani, Byrne, Hugh J., and Tian, Furong

Subjects

*GOLD nanoparticles, *NANOPARTICLE size, *SURFACE plasmon resonance, *MOLARITY, *FUNGAL metabolites, *RADICAL ions, *GOLD clusters

Abstract

A critical understanding of the formation and growth process of gold nanoparticles (GNPs) is crucial, in order to synthesize monodisperse gold nanocrystals of controllable size and shape in a predictable way. GNPs of different shapes and sizes can be produced by altering different physicochemical reaction conditions, such as pH, temperature, and the ratio of reactants. The significant variations in the morphological features of GNPs can be monitored in situ in a time-dependent manner by using UV–visible spectroscopy. In this study, we have synthesized seedless GNPs by reduction of HAuCl 4 by using various molar ratios of HEPES and Na 2 HPO 4. The shape and the geometry of the gold nanostructures were optimized by varying the pH (5, 7, and 9) of the HEPES, molar concentrations of disodium phosphate to HAuCl 4, and reaction temperatures (20 °C, 40 °C, and 60 °C). The changes in the color of the reaction mixtures over time were recorded in situ in terms of the absorbance of the UV–visible light to tune and investigate the growth process of gold nanostructures. Transmission electron microscopic (TEM) images indicated that the gold nanostructures are anisotropic, stable, and exist in the size range of < 1–100 nm. The present study also confirms that the change in the color of nanostructure reaction mixtures is a function of the surface plasmon resonance bands under the influence of physicochemical reaction conditions and corroborates with the size and shape of nano-gold. Physicochemical parameters such as temperature, pH, and the molar concentration of the reactants act synergistically to influence the growth, molecular mechanics, and reaction thermodynamics that aid to affect the particle size, shape, and surface corona of the GNPs. By tracking the growth process, we can confirm that the nucleation, growth process, size, and shape of the gold nanostructures depend on the HEPES free radicals and phosphate ions which cluster to form polymeric chains on the gold nanocore. The present study's findings explain the growth process of the GNPs of various colors that can be observed by the naked eye and have promising applications, for example in the development of the biosensing rapid lateral flow immunoassays (LFIA) for the detection of mycotoxins in food samples. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024