Issue 16, 2020

Cyto-friendly polymerization at cell surfaces modulates cell fate by clustering cell-surface receptors

Abstract

Lots of strategies, e.g. using multivalent synthetic polymers, have been developed to control the spatial distribution of cell-surface receptors, thus modulating the cell function and fate in a custom-tailored manner. However, clustering cell-surface receptors via multivalent synthetic polymers is highly dependent on the structure as well as the ligand-density of the polymers, which may impose difficulties on the synthesis of polymers with a high density of ligands. Here, we pioneered the utilization of a cyto-friendly polymerization at the cell surface to cluster cell-surface receptors. As a proof of concept, an anti-CD20 aptamer conjugated macromer was initially synthesized, which was then efficiently and stably introduced onto the Raji cell surface via ligand–receptor interaction. With the assistance of an initiator, i.e. ammonium peroxysulfate (APS), the macromer bound onto the Raji cell surface polymerized, inducing the clustering of CD20 receptors, and thereby triggering cell apoptosis. This cell-surface polymerization induced cell-surface receptor crosslinking could alternatively be applied in modulating the fates and functions of other cells, especially those mediated by the spatial distribution of cell-surface receptors, such as T cell activation. Our work opens new possibilities in the area of chemical biology to some extent.

Graphical abstract: Cyto-friendly polymerization at cell surfaces modulates cell fate by clustering cell-surface receptors

Supplementary files

Article information

Article type
Edge Article
Submitted
17 Dec 2019
Accepted
25 Mar 2020
First published
25 Mar 2020
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2020,11, 4221-4225

Cyto-friendly polymerization at cell surfaces modulates cell fate by clustering cell-surface receptors

J. Qi, W. Li, X. Xu, F. Jin, D. Liu, Y. Du, J. Wang, X. Ying, J. You, Y. Du and J. Ji, Chem. Sci., 2020, 11, 4221 DOI: 10.1039/C9SC06385D

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