Implications of Quenching-to-Dequenching Switch in Quantitative Cell Uptake and Biodistribution of Dye-Labeled Nanoparticles

Yang Guangze; Liu Yun; Hui Yue; Tengjisi; Chen Dong; Weitz David A.; Zhao Chun-Xia

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Implications of Quenching-to-Dequenching Switch in Quantitative Cell Uptake and Biodistribution of Dye-Labeled Nanoparticles

机译：淬火与离线开关在定量细胞摄取和染料标记纳米粒子的生物分布的影响

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A general strategy to carry out cell uptake and biodistribution studies is to label nanoparticles (NPs) with a fluorescent dye. However, the comparative study of different dye-loaded NPs remains difficult owing to uncontrolled dye quenching and de-quenching. Here we compared two types of dye-labeled NPs and demonstrated their distinct properties. NPs with dye molecules at a solid state suffer from dye quenching, so the dye release and/or NP degradation in biological environments leads to a several-fold increase of fluorescence intensity despite the same amount of NPs, owing to the state switch from quenching to de-quenching. In contrast, NPs with dye molecules at a soluble state exhibit no quenching effect. To standardize the comparative study, we propose two possible solutions: using lower dye loading or using medium analysis for quantifying cell uptake of NPs. This work provides valuable insights into selecting valid quantification methods for bio-nano studies.

机译：进行细胞摄取和生物分布研究的一般策略是用荧光染料标记纳米颗粒（NPs）。然而，由于不受控制的染料猝灭和去猝灭，不同染料负载纳米颗粒的比较研究仍然很困难。在这里，我们比较了两种染料标记的NPs，并证明了它们的不同性质。染料分子处于固态的NP会遭受染料猝灭，因此，尽管NP数量相同，但生物环境中的染料释放和/或NP降解会导致荧光强度增加数倍，这是因为状态从猝灭切换到去猝灭。相比之下，染料分子处于可溶状态的NPs没有猝灭效应。为了使对比研究标准化，我们提出了两种可能的解决方案：使用较低的染料负载量或使用培养基分析来量化细胞摄取NPs。这项工作为生物纳米研究选择有效的量化方法提供了有价值的见解。

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《Angewandte Chemie》 |2021年第28期|共10页
作者
Yang Guangze; Liu Yun; Hui Yue; Tengjisi; Chen Dong; Weitz David A.; Zhao Chun-Xia;
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作者单位

Univ Queensland Australian Inst Bioengn &

Nanotechnol St Lucia Qld Australia;

Univ Queensland Australian Inst Bioengn &

Nanotechnol St Lucia Qld Australia;

Univ Queensland Australian Inst Bioengn &

Nanotechnol St Lucia Qld Australia;

Univ Queensland Australian Inst Bioengn &

Nanotechnol St Lucia Qld Australia;

Zhejiang Univ Coll Energy Engn Inst Proc Equipment Hangzhou Peoples R China;

Harvard Univ John A Paulson Sch Engn &

Appl Sci Cambridge MA 02138 USA;

Univ Queensland Australian Inst Bioengn &

Nanotechnol St Lucia Qld Australia;

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正文语种 eng
中图分类应用化学;
关键词
biodistribution; cell uptake; fluorescence; nanoparticles; quenching;

机译：生物分布;细胞摄取;荧光;纳米颗粒;淬火;

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Implications of Quenching-to-Dequenching Switch in Quantitative Cell Uptake and Biodistribution of Dye-Labeled Nanoparticles

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