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Engineering reversible cell–cell interactions using enzymatically lipidated chemically self-assembled nanorings

Yiao Wang, Ozgun Kilic, Clifford M. Csizmar, Sudhat Ashok, James L. Hougland, Mark D. Distefano, Carston R. Wagner

2020Chemical Science25 citationsDOIOpen Access PDF

Abstract

monomers incorporating a CAAX-box sequence were enzymatically prenylated, then assembled into the corresponding CSANs. Both farnesylated and geranylgeranylated CSANs efficiently modified the cell surface of lymphocytes and remained bound to the cell surface with a half-life of >3 days. Co-localization studies revealed a preference for the prenylated nanorings to associate with lipid rafts. The presence of antigen targeting elements in these bifunctional constructs enabled them to specifically interact with target cells while treatment with trimethoprim resulted in rapid CSAN disassembly and termination of the cell-cell interactions. Hence, we were able to determine that activated PBMCs modified with the prenylated CSANs caused irreversible selective cytotoxicity toward EGFR-expressing cells within 2 hours without direct engagement of CD3. The ability to disassemble these nanostructures in a temporally controlled manner provides a unique platform for studying cell-cell interactions and T cell-mediated cytotoxicity. Overall, antigen-targeted prenylated CSANs provide a general approach for the regulation of specific cell-cell interactions and will be valuable for a plethora of fundamental and therapeutic applications.

Topics & Concepts

CellSelf-assemblyNanotechnologyChemistryMaterials scienceCombinatorial chemistryBiochemistry3D Printing in Biomedical ResearchRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniques
Engineering reversible cell–cell interactions using enzymatically lipidated chemically self-assembled nanorings | Litcius