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General Strategy for Integrated Bioorthogonal Prodrugs: Pt(II)-Triggered Depropargylation Enables Controllable Drug Activation <i>In Vivo</i>

Tao Sun, Tian Lv, Jianbing Wu, Mingchao Zhu, Yue Fei, Jie Zhu, Yihua Zhang, Zhangjian Huang

2020Journal of Medicinal Chemistry38 citationsDOI

Abstract

Bioorthogonal decaging reactions for controllable drug activation within complex biological systems are highly desirable yet extremely challenging. Herein, we find a new class of Pt(II)-triggered bioorthogonal cleavage reactions in which Pt(II) but not Pt(IV) complexes effectively trigger the cleavage of O/N-propargyl in a variety of ranges of caged molecules under biocompatible conditions. Based on these findings, we propose a general strategy for integrated bioorthogonal prodrugs and accordingly design a prodrug 16, in which a Pt(IV) moiety is covalently connected with an O2-propargyl diazeniumdiolate moiety. It is found that 16 can be specifically reduced by cytoplasmic reductants in human ovarian cancer cells to liberate cisplatin, which subsequently stimulates the cleavage of O2-propargyl to release large amounts of NO in situ, thus generating synergistic and potent tumor suppression activity in vivo. Therefore, Pt(II)-triggered depropargylation and the integration concept might provide a general strategy for broad applicability of bioorthogonal cleavage chemistry in vivo.

Topics & Concepts

Bioorthogonal chemistryChemistryProdrugMoietyIn vivoPropargylCombinatorial chemistryCleavage (geology)StereochemistryClick chemistryBiochemistryCatalysisEngineeringBiotechnologyFracture (geology)BiologyGeotechnical engineeringClick Chemistry and ApplicationsPeptidase Inhibition and AnalysisAdvanced biosensing and bioanalysis techniques
General Strategy for Integrated Bioorthogonal Prodrugs: Pt(II)-Triggered Depropargylation Enables Controllable Drug Activation <i>In Vivo</i> | Litcius