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Cellular uptake kinetics of nanoparticles is one of the key issues determining the design and application of the particles. Models describing nanoparticles intrusion into the cell mostly take the endocytosis process into consideration, and the influences of electrical charges, sizes, concentrations of the particles have been investigated. In this paper, the temperature effect on the cellular uptake of Quantum Dots (QDs) is studied experimentally. QDs are incubated with the SPCA-1 human lung tumor cells, and the nanoparticles on the cell membrane and inside the cell are quantified according to the fluorescence intensities recorded. It is found that the amounts of nanoparticles attached onto the cell membrane and inside the cell both increase with temperature. Based on the experimental results, a model is proposed to describe the cellular uptake dynamic process of nanoparticles. The process consists of two steps: nanoparticles adsorption onto the cell membrane and the internalization. The dynamic parameters are obtained through curve fitting. The simulated results show that the internalization process can be categorized into different phases. The temperature dependent internalization rate constant is very small when below 14?°C. It increases distinctly when temperature rises from 14?°C to 22?°C, but there is no evident increase as temperature further increases above 22?°C. Results show that by incorporating a temperature-independent internalization factor, the model predictions well fit the experimental results. 相似文献
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Martinsson Erik Sepulveda Borja Chen Peng Elfwing Anders Liedberg Bo Aili Daniel 《Plasmonics (Norwell, Mass.)》2014,9(4):773-780
Plasmonics - The possibility to enhance the local refractive index sensitivity using plasmonic coupling between spherical gold nanoparticles (Au-NPs) has been investigated. A strong and distinct... 相似文献
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Aili Zhang Xin He Ling Zhang Lin Yang Philip Woodman Wei Li 《The Journal of biological chemistry》2014,289(42):29180-29194
Biogenesis of lysosome-related organelles complex-1 (BLOC-1) is a component of the molecular machinery required for the biogenesis of specialized organelles and lysosomal targeting of cargoes via the endosomal to lysosomal trafficking pathway. BLOS1, one subunit of BLOC-1, is implicated in lysosomal trafficking of membrane proteins. We found that the degradation and trafficking of epidermal growth factor receptor (EGFR) were delayed in BLOS1 knockdown cells, which were rescued through BLOS1 overexpression. A key feature to the delayed EGFR degradation is the accumulation of endolysosomes in BLOS1 knockdown cells or BLOS1 knock-out mouse embryonic fibroblasts. BLOS1 interacted with SNX2 (a retromer subunit) and TSG101 (an endosomal sorting complex required for transport subunit-I) to mediate EGFR lysosomal trafficking. These results suggest that coordination of the endolysosomal trafficking proteins is important for proper targeting of EGFR to lysosomes. 相似文献
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Ayshamgul Hasim Aixingzi Aili Aminigul Maimaiti Batur mamtimin Abulizi Abudula Halmurat Upur 《Molecular biology reports》2013,40(10):5853-5859
In this study, plasma-free amino acid profiles were used to investigate pre-cancerous cervical intraepithelial neoplasia (CIN) and cervical squamous cell carcinoma (CSCC) metabolic signatures in plasma. Additionally, the diagnostic potential of these profiles was assessed, as well as their ability to provide novel insight into CSCC metabolism and systemic effects. Plasma samples from CIN patients (n = 26), CSCC patients (n = 22), and a control healthy group (n = 35) were analyzed by high-performance liquid chromatography, and their spectral profiles were subjected to the t test for statistical significance. Potential metabolic biomarkers were identified using database comparisons that examine the significance of metabolites. Compared with healthy controls, patients with CIN and CSCC demonstrated lower levels of plasma amino acids; plasma levels of arginine and threonine were increased in CIN patients but were decreased in cervical cancer patients. Additionally, the levels of a larger group of amino acids (aspartate, glutamate, asparagine, serine, glycine, histidine, taurine, tyrosine, valine, methionine, lysine, isoleucine, leucine, and phenylalanine) were gradually reduced from CIN to invasive cancer. These findings suggest that plasma-free amino acid profiling has great potential for improving cancer screening and diagnosis and for understanding disease pathogenesis. Plasma-free amino acid profiles may have the potential be used to determine cancer diagnoses in the early stage from a single blood sample and may enhance our understanding of its mechanisms. 相似文献
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Dandan Song Hongsheng Liang Bo Qu Yijing Li Jingjing Liu Yanan Zhang Lu Li Li Hu Xiangtong Zhang Aili Gao 《Journal of cellular biochemistry》2019,120(1):622-633
Glioma, the most predominant primary malignant brain tumor, remains uncured due to the absence of effective treatments. Hence, it is imperative to develop successful therapeutic agents. This study aimed to explore the antitumor effects and mechanisms of ivermectin (IVM) in glioma cells in vitro and in vivo. The effects of IVM on cell viability, cell cycle arrest, apoptosis rate, and morphological characteristics were determined respectively by MTT assay/colony formation assay, flow cytometry, and transmission electron microscope. In addition, the expression levels of cycle-related and apoptosis-associated proteins were individually examined by Western blot analysis. Moreover, cell proliferation and apoptosis analyses were carried out by TUNEL, Ki-67, cleaved caspase-3, and cleaved caspase-9 immunostaining assay. Our results demonstrated that IVM has a potential dosage-dependent inhibition effect on the apoptosis rate of glioma cells. Meanwhile, the results also revealed that IVM induced apoptosis by increasing caspase-3 and caspase-9 activity, upregulating the expressions of p53 and Bax, downregulating Bcl-2, activating cleaved caspase-3 and cleaved caspase-9, and blocking cell cycle in G0/G1 phase by downregulating levels of CDK2, CDK4, CDK6, cyclin D1, and cyclin E. These findings suggest that IVM has an inhibition effect on the proliferation of glioma cells by triggering cell cycle arrest and inducing cell apoptosis in vitro and in vivo, and probably represents promising agent for treating glioma. 相似文献
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