Host–guest binding between cucurbit[8]uril and amphiphilic peptides achieved tunable supramolecular aggregates for cancer diagnosis
Jie Niu, Jie Yu, Xuan Wu, Ying‐Ming Zhang, Yong Chen, Zhilin Yu, Yu Liu
Abstract
oxidation-driven macrocycle-confined fluorescence enhancement for cell imaging and morphological reconstruction for cancer cell death. The experimental results demonstrate that cucurbit[8]uril possesses a high binding affinity with the methionine peptide, while this value sharply decreases after the methionine residue is oxidized to sulfoxide or sulfone. Therefore, perylene diimide can be competitively included by cucurbit[8]uril in the co-assemblies, eventually resulting in a 10-fold fluorescence enhancement and the conversion of topological morphology from nano-sized particles to micron-sized sheets. Moreover, the obtained ternary assemblies can be oxidized by endogenous reactive oxygen species in cancer cells, thus not only providing enhanced fluorescence for cell imaging, but also leading to endoplasmic reticulum dysfunction and significant cell death. Therefore, the controllable and oxidation-responsive morphological transformation based on the host-guest competitive binding in biological media can be viewed as a feasible means for efficient disease theragnosis.