Project description:As a humanized mouse antibody, SM5-1 can target a membrane protein of about 230kDa over-expressed in hepatocellular carcinoma (HCC), melanoma and breast cancer and it has been found to inhibit the progress of tumor cells. In this study, SM5-1 conjugated gold nanoparticles were prepared to study the antitumor efficacy in the treatment of HCC-LM3-fLuc tumor. The results showed that AU-SM5-1 could inhibit HCC-LM3 hepatocellular carcinoma cell proliferation up to 71.26% at the concentration of 0.5mg/ml contrast with SM5-1 and gold nanoparticles. In order to address the mechanism of the antiproliferative effects of AU-SM5-1, we examined the gene expression in HCC-LM3-fLuc tumor cells based on gene-chip screening.
Project description:In this study, we investigated the gene expression induced by locally delivered gold and silicate nanoaprticles with the diameter of 20 and 100 nm in the retina. We injected nanoparticles into the vitreous cavity of 5-week-old male C57BL/6 mice. Au20 indicates gold nanoparticles of which diameters were 20 nm, Au100 gold nanoparticles of which diameters were 100 nm, Si20 silicate nanoparticles of which diameters were 20 nm, and Si100 silicate nanoparticles of which diameters were 100 nm. We intravitreally injected PBS or nanoparticles (gold and silicate) into the right eyes of 5-week-old male C57BL/6 mice (n = 12 per group). PBS-treated mice were regarded as negative control. Four retinal tissues were pooled into 1 test tube and prepared for further analyses.
Project description:In this study, we investigated the gene expression induced by locally delivered gold and silicate nanoaprticles with the diameter of 20 and 100 nm in the retina. We injected nanoparticles into the vitreous cavity of 5-week-old male C57BL/6 mice. Au20 indicates gold nanoparticles of which diameters were 20 nm, Au100 gold nanoparticles of which diameters were 100 nm, Si20 silicate nanoparticles of which diameters were 20 nm, and Si100 silicate nanoparticles of which diameters were 100 nm.
Project description:As a humanized mouse antibody, SM5-1 can target a membrane protein of about 230kDa over-expressed in hepatocellular carcinoma (HCC), melanoma and breast cancer and it has been found to inhibit the progress of tumor cells. In this study, SM5-1 conjugated gold nanoparticles were prepared to study the antitumor efficacy in the treatment of HCC-LM3-fLuc tumor. The results showed that AU-SM5-1 could inhibit HCC-LM3 hepatocellular carcinoma cell proliferation up to 71.26% at the concentration of 0.5mg/ml contrast with SM5-1 and gold nanoparticles. In order to address the mechanism of the antiproliferative effects of AU-SM5-1, we examined the gene expression in HCC-LM3-fLuc tumor cells based on gene-chip screening. The gene chip results showed that some cycle-related and reactive oxygen species (ROS) related genes including up-regulated P21 and down-regulated duox2 and nox1 genes which were validated by real-time quantitative polymerase chain reaction (PCR).
Project description:Engineered gold nanoparticles (GNPs) have become a useful tool in various therapeutic and diagnostic applications. Uncertainty remains regarding possible impacts of GNPs to the immune system. In this regard, we investigated the interactions of polymer-coated GNPs with B cells and their functions in mice as they constitute a crucial part of the immune system and represent a potential target for systemically administered GNPs. Surprisingly, we observed that polymer-coated GNPs mainly interact with the recently identified subpopulation of B lymphocytes named Age-associated B cells (ABCs). Importantly, we also showed that GNPs did not affect the percentages of other B cell populations in different organs. Furthermore, GNPs did not activate B cell innate-like immune responses in any of the tested conditions, nor did they impair adaptive B cell responses in immunized mice. Together, these data provide an important contribution to otherwise limited knowledge about GNP interference with B cell immune function, and demonstrate that GNPs represent a safe tool to target ABCs in vivo for various potential applications.
Project description:Explore the underlying mechanisms-of-action after short-term (24 h) waterborne exposure to low (0.5 μg/L) and high (50 μg/L) gold nanoparticles (AuNP) concentrations in gilthead sea bream.
Project description:Transcriptome comparison to assess the responses of human monocytic cells (THP-1) to gold-nanoparticles (Au-NPs) of two different diameter sizes (5 or 20 nm) with different surface functional groups, i.e., alkylammonium bromide, alkyl sodium carboxylate, or poly(ethylene glycol) (PEG)-terminated thiolate Au-NPs.
Project description:We showed a kind of rectangular shaped gold-based nanoparticles (gold nanocages, GNC) could enhance the survival of cells from hydroxyurea induced cell apoptosis and significantly reduced the reactive oxygen species (ROS) levels.The nanoparticles could initiate single layer isolation membrane elongation after been phagocytosed, followed by autophagosome and autolysosome formation, then specifically integrated into the autophagosome inner membrane and bind to p62. Through recycling ribosome proteins and activate Nrf2 mediated activation of GATA3 signaling, rescue the cell death and enhanced cell and life survival.
Project description:A safer design and higher eficacy of nano-gold therapeutic formulations requires examination of cellular responses to gold nanoparticles (AuNPs). In this work we compared cellular uptake, cytotoxicity and RNA expression patterns induced in Caco-2 cells of citrate-stabilized Au NP of two different sizes (5 and 30 nm). The toxicity was measured with Colony Forming Efficiency (CFE) and Trypan Blue assays at 24 and 72 h after exposure to AuNPs in the 10 - 300 mM range. Toxicity was observed only in the CFE assay, at 200 and 300 mM exposure levels, and exclusively for smaller AuNPs size. Cellular internalization was dose and time-dependent for both AuNPs. The most pronounced changes in gene expression, evaluated with Agilent microarrays, were detected at 72 h (300 mM) for 5 nm AuNPs, with 103 up and 708 down regulated transcripts. For 30 nm AuNPs, only 4 gene transcripts were repressed under these conditions. The biological processes affected by 5 nm AuNPs were: RNA/zinc ion/transition metal ion binding (decreased), cadmium/copper ion binding and glutathione metabolism (increased). Some Nrf2 responsive genes (several metallothioneins, HMOX, G6PD, OSGIN1 and GPX2) were highly up regulated. Members of the selenoproteins (SELT, SELK, 15 kDa selenoprotein, SEPP1 and GPX2) were also differentially expressed. Our findings indicate that at high concentrations, smaller AuNPs can induce metal exposure and oxidative stress signaling pathways, and might influence selenium homeostasis. Therefore, some observed effects associated with nano-gold cytotoxicity can be further explored as potential enhancers of anti-cancer properties of already existing AuNPs based nanomedicin. Caco-2 cells were expoxed to spherical gold nanoparticles of two different sizes and concentrations (5 and 30 nm AuNPs, 100 and 300 microM). Cells were collected after 24 or 72 hours