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Published March 2001 | public
Journal Article

Effects of Structure of β-Cyclodextrin-Containing Polymers on Gene Delivery

Abstract

Linear cationic β-cyclodextrin-based polymers (βCDPs) are capable of forming polyplexes with nucleic acids and transfecting cultured cells. The βCDPs are synthesized by the condensation of a diamino-cyclodextrin monomer A with a diimidate comonomer B. In this paper, the effects of polymer structure on polyplex formation, in vitro transfection efficiency and toxicity are elucidated. By comparison of the βCDPs to polyamidines lacking cyclodextrins, the inclusion of a cyclodextrin moiety in the comonomer A units reduces the IC50s of the polymer by up to 3 orders of magnitude. The spacing between the cationic amidine groups is also important. Different polymers with 4, 5, 6, 7, 8, and 10 methylene units (βCDP4, 5, 6, 7, 8, and 10) in the comonomer B molecule are synthesized. Transfection efficiency is dependent on comonomer B length with up to 20-fold difference between polymers. Optimum transfection is achieved with the βCDP6 polymer. In vitro toxicity varied by 1 order of magnitude and the lowest toxicity is observed with βCDP8. The LD40 of the βCDP6 to mice is 200 mg/kg, making this polymer a promising agent for in vivo gene delivery applications.

Additional Information

© 2001 American Chemical Society. Received September 8, 2000; Revised Manuscript Received December 21, 2000. S.J.H. thanks the Whitaker Foundation for a doctoral fellowship.

Additional details

Created:
August 19, 2023
Modified:
October 24, 2023