Microfluidic generation of transient cell volume exchange for convectively driven intracellular delivery of large macromolecules

Anna Liu; Muhymin Islam; Nicholas Stone; Vikram Varadarajan; Jenny Jeong; Samuel Bowie; Peng Qiu; Edmund K. Waller; Alexander Alexeev; Todd Sulchek

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Microfluidic generation of transient cell volume exchange for convectively driven intracellular delivery of large macromolecules

机译：微流体产生瞬态细胞体积交换，对大型大分子的定性驱动的细胞内递送

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Efficient intracellular delivery of target macromolecules remains a major obstacle in cell engineering and other biomedical applications. We discovered a unique cell biophysical phenomenon of transient cell volume exchange using microfluidics to rapidly and repeatedly compress cells. This behavior consists of brief, mechanically induced cell volume loss followed by rapid volume recovery. We harness this behavior for high-throughput, convective intracellular delivery of large polysaccharides (2000?kDa), particles (100?nm), and plasmids while maintaining high cell viability. Successful proof of concept experiments in transfection and intracellular labeling demonstrated potential to overcome the most prohibitive challenges in intracellular delivery for cell engineering.

机译：高效的靶癌细胞递送仍然是细胞工程和其他生物医学应用中的主要障碍。我们发现了使用微流体的瞬态细胞体积交换的独特细胞生物物理现象，以快速，重复压缩细胞。该行为包括简要介绍，机械诱导的细胞体积损失，然后进行快速恢复。我们利用这种行为进行高通量，对流细胞内递送大多糖（2000 kDa），颗粒（100μm）和质粒，同时保持高细胞活力。转染和细胞内标记的概念实验的成功证明表明克服细胞工程内部递送中最令人望而却染的挑战。

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《Materials today》 |2018年第7期|共10页
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Anna Liu; Muhymin Islam; Nicholas Stone; Vikram Varadarajan; Jenny Jeong; Samuel Bowie; Peng Qiu; Edmund K. Waller; Alexander Alexeev; Todd Sulchek;
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1. Enhanced intracellular delivery of macromolecules by melittin derivatives mediated cellular uptake [J] . Kyung Heiwon, Kim Heejung, Lee Hyukjin, Journal of industrial and engineering chemistry . 2018,第期

机译：通过蛋白酶衍生物介导的细胞摄取增强了大分子的细胞内递送
2. Exploitation of intracellular pH gradients in the cellular delivery of macromolecules. [J] . Asokan A, Cho MJ Journal of pharmaceutical sciences. . 2002,第4期

机译：在大分子的细胞递送中利用细胞内pH梯度。
3. Simultaneous measurement of superoxide generation and intracellular Ca2+ concentration reveals the effect of extracellular Ca2+ on rapid and transient contents of superoxide generation in differentiated THP-1 cells [J] . Ishibashi K, Okazaki S, Hiramatsu M Biochemical and Biophysical Research Communications . 2006,第2期

机译：同时测量超氧化物生成和细胞内Ca2 +浓度揭示了细胞外Ca2 +对分化的THP-1细胞中超氧化物生成的快速和短暂内容的影响
4. Understanding Endocytic Pathways Towards Improved Intracellular Delivery and Targeting of Therapeutic Macromolecules [C] . Arwyn T. Jones Controlled Release Society Annual Meeting and Exposition . 2007

机译：了解内吞途径，以改善细胞内传递和治疗性大分子的靶向。
5. High-throughput Inertial Microfluidic Platforms for Single-cell Mechanotyping and Intracellular Molecule Delivery [D] . Deng, Yanxiang. 2018

机译：用于单细胞机理学和细胞内分子递送的高通量惯性微流体平台
6. Microfluidic generation of transient cell volume exchange for convectively driven intracellular delivery of large macromolecules [O] . Anna Liu, Muhymin Islam, Nicholas Stone, -1

机译：对流驱动大分子的细胞内传递的瞬时细胞体积交换的微流体产生。
7. Nontoxic nanopore electroporation for effective intracellular delivery of biological macromolecules [O] . Yuhong Cao, Enbo Ma, Stefano Cestellos-Blanco, 2019

机译：无毒纳米孔电穿孔，用于生物大分子的有效细胞内递送

Microfluidic generation of transient cell volume exchange for convectively driven intracellular delivery of large macromolecules

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