Gemini Surfactants: New Synthetic Vectors for Gene Transfection

Anthony J. Kirby(University of Cambridge), Patrick Camilleri(GlaxoSmithKline (United Kingdom)), Jan B. F. N. Engberts(University of Groningen), Martin C. Feiters(Radboud University Nijmegen), Roeland J. M. Nolte(Radboud University Nijmegen), Olle Söderman(Lund University), Mark Bergsma(University of Groningen), Paul C. Bell(University of Groningen), Matthew Fielden(University of Groningen), Cristina Rodríguez(Radboud University Nijmegen), Philippe Guédat(University of Cambridge), Andreas Kremer(GlaxoSmithKline (United Kingdom)), Caroline McGregor(University of Cambridge), Christèle Perrin(GlaxoSmithKline (United Kingdom)), Gaël Ronsin(University of Cambridge), Marcel C. P. van Eijk(Lund University)
Angewandte Chemie International Edition
April 4, 2003
10.1002/anie.200201597
Cited by 411

Abstract

The superior surfactant properties of cationic gemini surfactants are applied to the complex problem of introducing genes into cells. Of almost 250 new compounds tested, of some 20 different structural types, a majority showed very good transfection activity in vitro. The surfactant is shown to bind and compact DNA efficiently, and structural studies and calculations provide a working picture of the "lipoplex" formed. The lipoplex can penetrate the outer membranes of many cell types, to appear in the cytoplasm encapsulated within endosomes. Escape from the endosome--a key step for transfection--may be controlled by changes in the aggregation behavior of the lipoplex as the pH falls. The evidence suggests that DNA may be released from the lipoplex before entry into the nucleus, where the new gene can be expressed with high efficiency.

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