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Thionine Conjugated Gold Nanoparticles Trigger Apoptotic Activity Toward HepG2 Cancer Cell Line.

Puja PaulSabyasachi ChatterjeeArindam PramanikParimal KarmakarSubhash Chandra BhattacharyyaGopinatha Suresh Kumar
Published in: ACS biomaterials science & engineering (2018)
Cancer cells were locally damaged using targeted gold nanoparticles (GNP) conjugated with therapeutic dye thionine (TN). GNP was prepared by citrate reduction method, and the two complexes, namely GTN1 and GTN2, were synthesized by mixing GNP and TN at different ratios at room temperature and at 80 °C, respectively. It is expected that GTN1 is formed when stabilizer TN participates in the reduction of Au3+ ions to Au0 nanocrystallites, while GTN2 is synthesized when the cationic dye TN adsorbs onto the GNP surfaces due to the electrostatic attraction. The compounds were characterized by strong plasmon resonance absorption, Fourier transform infrared spectroscopy, dynamic light scattering technique, ζ-potential measurement, transmission electron microscopy, and atomic force microscopy. Crystallinity of the NPs was ascertained by X-ray diffraction. Strong binding of GTN1 to DNA and the structural perturbation prompted us to study the cytotoxic activity of the compounds on hepatocellular carcinoma cell lines (HepG2) by MTT assay. The mode of cytotoxicity was found due to reactive oxygen species (ROS) generation inside the cells. Fluorescence microscopy analysis revealed nuclear fragmentation which was caused due to the ROS. The GTN1 induced fragmentation led to the apoptosis mediated cell death as found from the cell cycle study. Conclusions drawn from these studies emphasized GTN1 to be capable of inhibiting proliferation in cancer cells in an amount greater than that of other compounds. The importance of the work lies in the exploration of effectiveness of nanoparticles to prevent cancer cell proliferation, which is a progressive step toward novel biomedical applications.
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