Issue 5, 2016

Enhanced cell membrane enrichment and subsequent cellular internalization of quantum dots via cell surface engineering: illuminating plasma membranes with quantum dots

Abstract

Efficient cellular uptake of nanoparticles is crucial for modulating the cell behaviors as well as dictating the cell fate. In this work, by using two commercial reagents (the membrane modification reagent “cholesterol–PEG–biotin” and the avidin-modified quantum dots (QDs) “QD–avidin”), we achieved the enhanced plasma membrane enrichment and endocytosis of fluorescent QDs in cancer cells through cell surface engineering. The QD–cell interaction involved two stages: adsorption and internalization. After incubation with cholesterol–PEG2k–biotin, the cell membrane was engineered with biotin groups that would actively recruit QD–avidin to the cell surface within 1 min. This fast adsorption process could realize high quality and photostable plasma membrane imaging, which is simple, low-cost and generally applicable as compared with the previously reported membrane protein/receptor labeling-based QD imaging. After that, the QDs attached on the cell surface underwent the internalization process and 12 h later, almost all the QDs were internalized through endocytosis. Notably, we found that the internalization of QDs was not via common endocytosis pathways (such as clathrin- or caveolae-mediated endocytosis or macropinocytosis) but more likely via lipid raft-dependent endocytosis. In contrast, without cell surface engineering, the QD–avidin showed negligible cellular uptake. The results demonstrate that cell surface engineering is an efficient strategy to image the plasma membrane and increase cellular uptake of nanoparticles, and will be potentially applied to enhance the efficacy of nanomedicines when therapeutic nanoparticles are used.

Graphical abstract: Enhanced cell membrane enrichment and subsequent cellular internalization of quantum dots via cell surface engineering: illuminating plasma membranes with quantum dots

Supplementary files

Article information

Article type
Paper
Submitted
19 Oct 2015
Accepted
21 Dec 2015
First published
21 Dec 2015

J. Mater. Chem. B, 2016,4, 834-843

Enhanced cell membrane enrichment and subsequent cellular internalization of quantum dots via cell surface engineering: illuminating plasma membranes with quantum dots

H. Wang, X. Hua, H. Jia, P. Liu, N. Gu, Z. Chen and F. Wu, J. Mater. Chem. B, 2016, 4, 834 DOI: 10.1039/C5TB02183A

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