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Ting Lin | Biomaterials: Enzymatic non-covalent synthesis of supramolecular assemblies as a general platform for bioorthogonal prodrugs activation to combat drug resistance

药学院英文网站   发布时间: 2021-10-31   信息员:    浏览次数: 17

Ting Lin | Biomaterials: Enzymatic non-covalent synthesis of supramolecular assemblies as a general platform for bioorthogonal prodrugs activation to combat drug resistance


Multi-drug resistance (MDR) is one of the leading causes of the anticancer failures. Besides the blockage of the MDR pathways, the development of more potent drugs is with urgent needs, but has been postponed mainly due to an imbalance between safety and efficacy. The recent development of the bioorthogonal prodrug activation strategy has shown immense potential to balance safety and efficacy, while recent studies only focused on few drug entities such as doxorubicin and monomethyl auristatin E, leaving the vast collection of toxins undetermined. Here we have enumerated typical molecular entities ranging from food and drug administration (FDA) approved drugs to a heated antibody drug conjugates (ADC) warhead and a trichothecene toxin to demonstrate that the bioorthogonal caging and specific activation could serve as a general design to increase the therapeutic index of bioactive molecules. These prodrugs can be efficiently activated on-demand by the bioorthogonal activators whose distribution was regulated by the cancer cell specific enzymatic non-covalent synthesis of supramolecular self-assemblies. The prodrug activation not only enhanced the synergistic therapeutic effect within a broad range of dose ratios but also allowed the convenient switching of drug identities to successfully combat MDR tumor in vivo. In general, this strategy might serve as a general platform, which can be readily applicable to enlarge the therapeutic window for various bioactive molecules. We envision that the spatiotemporal controlled bioorthogonal prodrug activation would facilitate the discovery of anticancer drugs.


Link: https://www.sciencedirect.com/science/article/pii/S0142961221004750



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