Protection of a Gold Catalyst by a Supramolecular Cage Improves Bioorthogonality

Abstract

Gold catalysts exhibit poor compatibility with cellular components. We show that encapsulation of a gold catalyst within the cavity of a supramolecular cage improves the reactivity of the gold complex under biological conditions. The gold complex catalyzes an intramolecular hydroarylation to produce a fluorescent dye. The encapsulated gold is able to produce this dye in higher yields compared to the free gold under aqueous aerobic conditions and in the presence of biological additives. The substrate was found to be highly cytotoxic, meaning that a very low substrate concentration of 1 μM is required to carry its transformation inside living cells; however, catalysis in cell culture media carried out at micromolar range is found to be inhibited. Although this specific reaction cannot be applied inside living cells, we present a viable strategy to improve the reactivity of gold catalysts in vivo.