Micellar paclitaxel-initiated raft polymer conjugates with acid-sensitive behavior
Publication date
2017-03-21
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Document Type
Letter
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taverne
Abstract
Acid-sensitive paclitaxel (PTX)-polymer conjugates were designed by applying a grafting-from-drug RAFT approach. PTX was linked through either a cyclic or a linear, acid-sensitive acetal moiety. Relative to direct esterification of PTX, which occurred regioselectively at the C2' OH-group, direct acetalization was observed at either the C2' or the C7 OH-group of PTX. This yielded two regioisomers of acetal-based PTX-functionalized RAFT chain transfer agents (CTAs). Subsequent polymerization with N,N-dimethylacrylamide (DMA) resulted in amphiphilic highly defined, acetal-based PTX-polymer conjugates with nearly identical features in terms of polymer definition and micellar self-Assembly behavior, but with distinct PTX release kinetics and absence of burst release. This was further reflected by their in vitro biological performance, giving insights into the difference of the release mechanism between ester-And acetal-based PTX-polymer conjugates.
Keywords
Taverne, Polymers and Plastics, Organic Chemistry, Inorganic Chemistry, Materials Chemistry
Citation
Louage, B, Van Steenbergen, M J, Nuhn, L, Risseeuw, M D P, Karalic, I, Winne, J, Van Calenbergh, S, Hennink, W E & De Geest, B G 2017, 'Micellar paclitaxel-initiated raft polymer conjugates with acid-sensitive behavior', ACS Macro Letters, vol. 6, no. 3, pp. 272-276. https://doi.org/10.1021/acsmacrolett.6b00977