Molecular glues carrying multiple guanidinium ion pendants via an oligoether spacer: Stabilization of microtubules against depolymerization

Abstract

Dendron G1(Gu⁺)<inf>9</inf>R and linear peptide oligomer Asn(TEG-Gu⁺)<inf>9</inf>, decorated with multiple guanidinium (Gu⁺) ions as sticky pendants via an oligo(oxyethylene) spacer, adhere to BSA and protein assemblies such as microtubules in aqueous buffers. Using fluorescently labeled G1(Gu⁺)<inf>9</inf> with pyrenyl and rhodamine focal cores, the adhesion process can be visualized by FRET or confocal laser scanning microscopy. The adhesion to microtubules leads to their stabilization against depolymerization into α/βtubulin heterodimer components, where the effects of G1(Gu+)9R and Asn(TEG-Gu+)9 are comparable to that of paclitaxel, known as an anticancer drug. Since G1(Gu⁺) <inf>9</inf> and Asn(TEG-Gu⁺)<inf>9</inf> are superior to lower-generation G0(Gu⁺)<inf>3</inf>OMe and arginine nonamer, respectively, the multivalency of the interaction and a conformational flexibility of the oligoether spacers play a crucial role in the efficient adhesion to proteins. Copyright © 2009 American Chemical Society.