Issue 29, 2022

Hollow spherical nucleic acid structures based on polymer-coated phospholipid vesicles

Abstract

A feasible one pot synthesis of hollow spherical nucleic acids (SNAs) using phospholipid liposomes is reported. These constructs are synthesized in a chemically straightforward process involving formation of unilamellar liposomes, coating the liposomes with a thin cross-linked polymeric layer, and grafting the latter with short (about 20 bases) DNA oligonucleotide strands. They consist of vesicular cores, composed of readily available phospholipid (1,2-dipalmitoyl-sn-glycero-phosphocholine), whereas the strands are deliberately arranged on the surface of the vesicular entities. The initial vesicular structure and morphology are preserved during the coating and grafting reactions. The novel hollow/vesicular SNAs are characterized with a hydrodynamic radius and radius of gyration of 78.3 and 88.5 nm, respectively, and moderately negative (−14.2 mV) ζ potential. They carry thousands (5868) of oligonucleotide strands per vesicle, which are not strongly radially oriented and adopt an unextended conformation as anticipated from the smaller value of the grafting density compared to the critical grafting density at the transition to brush conformation. The constructs are practically devoid of toxicity and exhibit high binding affinity to complementary nucleic acids. Unlike any other nucleic acid structural motif, they cross the cell membrane and enter cells without the need of transfection agents.

Graphical abstract: Hollow spherical nucleic acid structures based on polymer-coated phospholipid vesicles

Supplementary files

Article information

Article type
Paper
Submitted
21 Mar 2022
Accepted
04 Jul 2022
First published
05 Jul 2022

Soft Matter, 2022,18, 5426-5434

Hollow spherical nucleic acid structures based on polymer-coated phospholipid vesicles

E. Haladjova, M. Petrova, I. Ugrinova, A. Forys, B. Trzebicka and S. Rangelov, Soft Matter, 2022, 18, 5426 DOI: 10.1039/D2SM00355D

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