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Nanostars on Nanopipettes: A Raman Probe for Quantifying Oxygen Levels in Hypoxia in Single Cells and Tumors
摘要: Multiple sharp-edged gold nanostars were efficiently assembled on nanopipette tips by 3-aminopropyltrimethoxysilane (APTES) via an electrostatic interaction for a potent intracellular hypoxia-sensing Raman probe. Colloidal stability and surface immobilization was checked using scanning electron microscopy, light scattering and zeta potential measurements. Site-specific intracellular hypoxia levels can be estimated in vitro and in vivo using Raman lancets (RL). Distinct Raman spectral changes for the nitro-(NO2) functional group of the redox maker 4-nitrothiophenol (4NTP) can be quantified according to the intracellular oxygen (O2) contents, ranging from 1% to 10%. Facile removal of RL from cells can be achieved after a short measurement time. Redox potential changes in mitochondrial respiration could also be examined using serial injection of inhibitors. Three-dimensional (3D)-cultured cells and in vivo tests were used to validate our methods of measuring tumour hypoxia; potential applications were validated in terms of judging the aggressiveness of cancer cells by differentiating spectral changes between malignant and benign cells.
关键词: Cancer aggressiveness,Hypoxia,Surface enhanced resonance Raman,Intracellular redox potential,Nanopipette lancets
更新于2025-09-23 15:23:52
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Nanostars on Nanopipettes: A Raman Probe for Quantifying Oxygen Levels in Hypoxia in Single Cells and Tumors
摘要: Multiple sharp-edged gold nanostars were efficiently assembled on nanopipette tips by 3-aminopropyltrimethoxysilane (APTES) via an electrostatic interaction for a potent intracellular hypoxia-sensing Raman probe. Colloidal stability and surface immobilization was checked using scanning electron microscopy, light scattering and zeta potential measurements. Site-specific intracellular hypoxia levels can be estimated in vitro and in vivo using Raman lancets (RL). Distinct Raman spectral changes for the nitro-(NO2) functional group of the redox maker 4-nitrothiophenol (4NTP) can be quantified according to the intracellular oxygen (O2) contents, ranging from 1% to 10%. Facile removal of RL from cells can be achieved after a short measurement time. Redox potential changes in mitochondrial respiration could also be examined using serial injection of inhibitors. Three-dimensional (3D)-cultured cells and in vivo tests were used to validate our methods of measuring tumour hypoxia; potential applications were validated in terms of judging the aggressiveness of cancer cells by differentiating spectral changes between malignant and benign cells.
关键词: Hypoxia,Intracellular redox potential,Cancer aggressiveness,Nanopipette lancets,Surface enhanced resonance Raman
更新于2025-09-23 15:23:52