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In vivo metallophilic self-assembly of a light-activated anticancer drug.

Xue-Quan ZhouPeiyuan WangVadde RamuLiyan ZhangSuhua JiangXuezhao LiSelda AbyarPanagiota PapadopoulouYang ShaoLudovic BretinMaxime A SieglerFrancesco BudaAlexander KrosJiangli FanXiaojun PengWen SunSylvestre A Bonnet
Published in: Nature chemistry (2023)
Self-assembling molecular drugs combine the easy preparation typical of small-molecule chemotherapy and the tumour-targeting properties of drug-nanoparticle conjugates. However, they require a supramolecular interaction that survives the complex environment of a living animal. Here we report that the metallophilic interaction between cyclometalated palladium complexes generates supramolecular nanostructures in living mice that have a long circulation time (over 12 h) and efficient tumour accumulation rate (up to 10.2% of the injected dose per gram) in a skin melanoma tumour model. Green light activation leads to efficient tumour destruction due to the type I photodynamic effect generated by the self-assembled palladium complexes, as demonstrated in vitro by an up to 96-fold cytotoxicity increase upon irradiation. This work demonstrates that metallophilic interactions are well suited to generating stable supramolecular nanotherapeutics in vivo with exceptional tumour-targeting properties.
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